CN109005312A - Configuration file adjusting method and configuration file regulating system - Google Patents

Abstract

The present invention provides the configuration file adjusting method and regulating system of a kind of convenience raising of operation that can make regulating allocation file in the case where implementing multiple colors and converting.The configuration file adjusting method receives the first input configuration file as the first element combined with output profiles, receive at least one party in the second input configuration file and spot color as the second element combined with the output profiles, carrying out the first object for receiving regulated value in the case where color conversion according to the first element and the output profiles, in the second target for carrying out receiving to adjust in the case where color conversion according to the second element and the output profiles, and the output profiles are adjusted based on the first object and second target.Can also be used as with the first element that combine of input configuration file and receive the first output profiles, input the second element that configuration file combines as with described and receive the second output profiles.

Description

Configuration file adjusting method and configuration file regulating system

Technical field

The present invention relates to the skills that configuration file used in the conversion of the coordinate value of a kind of pair of color space is adjusted Art.

Background technique

In the case where ink-jet printer to be used in the correction purposes of the printings such as hectographic printing, required color reproduction Precision (degree for accurately reproducing color) is very high.As the structure for realizing the requirement, there are used ICC The color management system of (International Color Consortium, international color alliance) configuration file.ICC configuration text Part is the equipment subordinate color and equipment for indicating Color devices as printing machine (such as offset press), ink-jet printer etc. The data of corresponding relationship between individual color.The equipment subordinate color of printing machine and ink-jet printer is for example by indicating that C is (bluish-green Color), the CMYK value of the usage amount of M (magenta), Y (yellow) and K (black) indicates.Equipment individual color is for example by conduct CIE (International Commission on Illumination) L*a*b* face of equipment independent color space (device independent color space) (omission " * " number as the color-values of Lab) or CIE XYZ color space to indicate for the color-values of the colour space.

Here, using the ICC Profile of printing machine as input configuration file, and the ICC of ink-jet printer is configured into text Part is as output profiles.When the CMYK value in printing machine (is set as CMYK_tValue) it is converted to according to input configuration file It, can should when color-values (such as Lab value) of PCS (Profile Connection Space, configuration file connection space) The CMYK value that color-values are converted to ink-jet printer according to output profiles (is set as CMYK_PValue).When according to CMYK_PValue and When implementing printing using ink-jet printer, color similar in the color with printing machine can be reproduced using ink-jet printer. In fact, expected face can not be reproduced because of the error of configuration file, color measuring error, variation of printer etc. sometimes Color.In this case, by being modified to ICC Profile, to improve the conversion accuracy of the color of object.

In patent document 1, it discloses a kind of in order to color of the machine as target device and to CMYK printer will be corrected Reproduction is adjusted, thus the method that the input value (Lab value) of the output profiles to CMYK printer is adjusted.With The input configuration file of output profiles combination is one kind of the input configuration file of correction machine.

For example, a printer output profiles are directed in the case where implementing printing etc., in addition to for printing Other than the input configuration file of the cmyk data of machine, also combination has the input of the RGB data for display device to match sometimes It sets file or specifies the spot color of direct color by Lab value.In this case, if only making printing machine input configuration file and beating The combinations of print machine output profiles optimizes, then in (such as the display device input configuration of others input configuration files File) or the combination of spot color and printer output profiles in, can not expect the sufficient raising of color reproduction accuracy.For Sufficient color is also obtained again in the combinations of other input configuration files or spot color and printer output profiles Existing precision, needs to switch over the object combined with printer with output profiles.

In addition, be directed to an input configuration file, combined sometimes according to the type of printed object different defeated Configuration file out.In this case, if only making the group for inputting the output profiles of configuration file and certain printed object It closes and optimizes, then can not expect color reproduction accuracy in the combination of the output profiles with other kinds of printed object Sufficient raising.

In addition, problem as described above is not limited only to the feelings being adjusted using ink-jet printer as the configuration file of object Condition, and in the case where being also present in being adjusted using various Color devices as the configuration file of object.

Patent document 1: Japanese Unexamined Patent Publication 2003-87589 bulletin

Summary of the invention

It is an object of the present invention to provide one kind can make in the case where implementing the conversion of multiple colors to configuration text The technology that the convenience for the operation that part is adjusted improves.

One of in order to achieve the above objectives, the present invention has such as under type, that is, a kind of configuration file adjusting method is To the text of configuration used in conversion of the first coordinate value from the first color space to the second coordinate value of the second color space The method that part is adjusted, the configuration file adjusting method include: the first designating step, as with define configuration file connect The first element of the output profiles combination of the third coordinate value in space and the corresponding relationship of second coordinate value is connect, and is connect By the first input configuration file of the corresponding relationship for defining first coordinate value and the third coordinate value；Second specified work Sequence as the second element combined with the output profiles, and receives to define first coordinate value and the third Second input configuration file of the corresponding relationship of coordinate value and by least one in the spot color represented by the third coordinate value Side；First object receives process, turns according to the first element and the output profiles from first coordinate value In the case where being changed to second coordinate value, receive to indicate the first object of the regulated value at the coordinate of the color of controlled plant； Second target receives process, according to second element and the output profiles and from first coordinate value and described In the case that at least one party in third coordinate value is converted to second coordinate value, receive the seat for indicating the color of controlled plant Second target of the adjusting at mark；Configuration file adjusts process, according to the first object and second mesh received It marks and the output profiles is adjusted.

In addition, the present invention has such as under type, that is, a kind of configuration file adjusting method, for from the first color space Conversion of first coordinate value to the second coordinate value of the second color space used in the method that is adjusted of configuration file, The configuration file adjusting method includes: the first designating step, as with define first coordinate value and configuration file and connect The first element of the input configuration file combination of the corresponding relationship of the third coordinate value in space is connect, and receives to define the third First output profiles of the corresponding relationship of coordinate value and second coordinate value；Second designating step, as with it is described defeated Enter the second element of configuration file combination, and receives to define the corresponding relationship of the third coordinate value Yu second coordinate value The second output profiles；First object receives process, according to the input configuration file and the first element and from In the case that first coordinate value is converted to second coordinate value, receive to indicate the tune in the coordinate of the color of controlled plant The first object of section value；Second target receives process, according to the input configuration file and second element and from described In the case that first coordinate value is converted to second coordinate value, receive to indicate the adjusting in the coordinate of the color of controlled plant Second target；Configuration file adjusts process, according to the first object and second target that are received to described defeated Enter configuration file to be adjusted.

In addition, the present invention has such as under type, that is, a kind of configuration file adjusts program, make computer realize with it is above-mentioned Configuration file adjusting method the corresponding function of each process.

In addition, the present invention has such as under type, that is, a kind of configuration file regulating system comprising with above-mentioned configuration text The corresponding unit of each process of part adjusting method (" portion ").

Above-mentioned mode, which is capable of providing, a kind of to be adjusted configuration file in the case where implementing the conversion of multiple colors The technology that the convenience of operation improves.

Detailed description of the invention

Fig. 1 is the block diagram for schematically showing the structural example of configuration file regulating system.

Fig. 2 is the exemplary figure for schematically showing color management process.

Fig. 3 is the exemplary figure for schematically showing other color management processes.

Fig. 4 is the exemplary figure for schematically showing the relationship of various configuration files.

Fig. 5 is the figure for schematically showing the structural example of configuration file.

Fig. 6 is to indicate that configuration file adjusts the exemplary flow chart of processing.

Fig. 7 is the exemplary flow chart for indicating configuration file and parameter setting processing.

Fig. 8 is the exemplary figure for schematically showing user interface picture.

Fig. 9 is the exemplary figure for schematically showing user interface picture.

Figure 10 is the exemplary figure for schematically showing detailed setting screen.

Figure 11 is the exemplary figure for schematically showing detailed setting screen.

Figure 12 is to schematically show using output profiles as the target region of acceptance in the case where controlled plant Exemplary figure.

Figure 13 is to schematically show using input configuration file as the target region of acceptance in the case where controlled plant Exemplary figure.

Figure 14 A is to schematically show the figure set to point of adjustment, and Figure 14 B is to be shown schematically in adjustable range Inside produce the exemplary figure of the distribution of the regulated quantity in the case where being overlapped.

Figure 15 is to indicate that output profiles adjust the exemplary flow chart that data group generates processing.

Figure 16 is to indicate that input configuration file adjusts the exemplary flow chart that data group generates processing.

Figure 17 A, 17B are the figure for schematically showing the calculated example of current output valve, and Figure 17 C is to schematically show pair The exemplary figure for the mathematical expression that current output valve is calculated.

Figure 18 A to 18C is the calculated example for schematically showing target output value corresponding with controlled plant color space Figure.

Figure 19 is the exemplary figure for schematically showing the mathematical expression calculated target output value.

Figure 20 A, 20B are to schematically show the input value of seeking controlled plant configuration file and adjust target value to show The figure of example, Figure 20 C are to schematically show to calculate the input value and adjusting target value that adjust object profile The exemplary figure of mathematical expression.

Figure 21 A is the exemplary figure for schematically showing the data group for output profiles to be adjusted, Figure 21 B For the exemplary figure for schematically showing the data group for input configuration file to be adjusted.

Figure 22 A is in the case where being adjusted in the output color space for be shown schematically in controlled plant configuration file Each mesh point regulated quantity figure, Figure 22 B is to be shown schematically in the input color space of controlled plant configuration file The figure of the regulated quantity of each mesh point in the case where being adjusted.

Figure 23 A is the exemplary figure for schematically showing the regulated quantity for determining the output valve for nearest mesh point, Figure 23 B For the exemplary figure for schematically showing the regulated quantity for determining the output valve for the mesh point around nearest mesh point.

Specific embodiment

Hereinafter, embodiments of the present invention will be described.Certainly, the following embodiments and the accompanying drawings is only to illustrate the present invention Mode, whole feature shown in embodiment might not all be necessary to the solution of invention.

(1) technical overview that the present invention is included:

Firstly, example shown in referring to Fig.1~23, the technical overview for being included to the present invention is illustrated.In addition, this Shen Figure please is to schematically show exemplary figure, there is a situation where that the magnifying power of all directions shown in these figures is different, and There are unmatched situations for each figure.Certainly, the specific example represented by each element of this technology is not limited to by symbol.

Mode 1

Configuration file adjusting method involved in one mode of this technology is, to from the first color space CS1 (such as CMYK color space or RGB color) the first coordinate value (such as CMYK value or rgb value) to the second color space CS2 (example Such as cmyk color space) the second coordinate value (such as cmyk value) conversion used in configuration file 500 is adjusted Method, the configuration file adjusting method receive process including the first designating step ST1, the second designating step ST2, first object ST3, the second target receive process ST4 and configuration file adjusts process ST7.In the first designating step ST1, as with The third coordinate value (such as Lab value) and described second for defining configuration file connection space CS3 (such as Lab color space) are sat The combined first element of the output profiles 620 of the corresponding relationship of scale value, and receive to define first coordinate value and institute State the first input configuration file 611 of the corresponding relationship of third coordinate value.In the second designating step ST2, as with institute The second element of the combination of output profiles 620 is stated, and receives to define first coordinate value and the third coordinate value Second input configuration file 612 of corresponding relationship, by at least one party in the spot color 645 represented by the third coordinate value.? The first object receives in process ST3, according to the first element (611) and the output profiles 620 and from institute It states in the case that the first coordinate value is converted to second coordinate value, receives the color (such as point of adjustment P0) for indicating controlled plant Coordinate at regulated value first object T1.Receive in process ST4 in second target, according to second element (612,645) and the output profiles 620 and from at least one party in first coordinate value and the third coordinate value In the case where being converted to second coordinate value, receive to indicate the second mesh of the adjusting at the coordinate of the color (P0) of controlled plant Mark T2.It is adjusted in process ST7 in the configuration file, according to the first object T1 and the second target T2 received And the output profiles 620 are adjusted.

In aforesaid way 1, in first implemented according to the first input configuration file 611 and output profiles 620 In color conversion, the output profiles 620 are conditioned, and are inputting configuration file 612 or spot color 645 and institute according to second Output profiles 620 are stated in the second color conversion of implementation, the output profiles 620 are also conditioned.It is therefore not necessary to be Output profiles 620 are adjusted and combined object is switched over.Therefore, being capable of providing one kind in implementation includes Make in the case where multiple colors conversion including the first color conversion and second color conversion to output profiles The configuration file adjusting method that the convenience for the operation being adjusted improves.

Here, in configuration file connection space, comprising as CIE Lab color space, CIE XYZ color space etc. Color space.

Include CMYK color space, CMY color space, RGB color etc. in the first color space.In addition, R refers to Red, G refer to green, and B refers to blue.

Include CMYK color space, CMY color space, RGB color etc. in the second color space.As described below Embodiment in, the second color space be CMYK color space in the case where, for the CMYK face with the first color space The colour space is distinguished, and the second color space is labeled as cmyk color space.

Indicate that the coordinate of color of controlled plant can both be indicated by the first coordinate value of the first color space, it can also be with It is indicated, can also be indicated by the third coordinate value of configuration file connection space by the second coordinate value of the second color space.

Indicate that the target of the adjusting on the coordinate of the color of controlled plant can both be indicated by the coordinate value of color space, It can also be indicated by the difference of the current coordinate value apart from color space.

The second element combined with output profiles can be two or more, both can be more than two second inputs Configuration file, or more than two spot colors can also be the both sides of the second input configuration file and spot color.

In addition, the supplementary explanation of aforesaid way 1 is identical as mode below.

Mode 2

In addition, configuration file adjusting method involved in other modes of this technology is, to from the first color space CS1 First coordinate value (such as CMYK value or rgb value) of (such as CMYK color space or RGB color) is to the second color space Configuration file 500 used in the conversion of the second coordinate value (such as cmyk value) of CS2 (such as cmyk color space) carries out The method of adjusting, the configuration file adjusting method connect including the first designating step ST1, the second designating step ST2, first object Received process ST4 by process ST3, the second target and configuration file adjusts process ST7.In the first designating step ST1, Input as the corresponding relationship with the third coordinate value for defining first coordinate value and configuration file connection space CS3 is matched The combined first element of file 610 is set, and receives to define the corresponding relationship of the third coordinate value Yu second coordinate value The first output profiles 621.In the second designating step ST2, as what is combined with the input configuration file 610 Second element, and receive to define the second output configuration text of the corresponding relationship of the third coordinate value and second coordinate value Part 622.Receive in process ST3 in the first object, according to the input configuration file 610 and the first element (621) and from first coordinate value in the case where being converted to second coordinate value, receive the color (example for indicating controlled plant As point of adjustment P0) coordinate at regulated value first object T1.Receive in process ST4 in second target, according to institute It states input configuration file 610 and second element (622) and is converted to second coordinate value from first coordinate value In the case of, receive to indicate the second target T2 of the adjusting at the coordinate of the color (P0) of controlled plant.In the configuration file tune It saves in process ST7, according to the first object T1 and the second target T2 that are received to the input configuration file 610 are adjusted.

In aforesaid way 2, in first implemented according to input configuration file 610 and the first output profiles 621 In color conversion, the input configuration file 610 is conditioned, and is matched according to the input configuration file 610 and the second output File 622 is set in the second color conversion of implementation, the input configuration file 610 is also conditioned.It is therefore not necessary in order to defeated Configuration file 610 is adjusted and switches over to combined object out.Therefore, it is capable of providing and a kind of is implementing to include described the Make to adjust output profiles in the case where multiple colors conversion including the conversion of one color and second color conversion The configuration file adjusting method that the convenience of the operation of section improves.

Herein, the second element combined with input configuration file is also possible to more than two second output profiles. The supplementary explanation is also identical as mode below.

Mode 3

As illustrated by Fig. 8,9, receive in process ST3 in the first object, it can also be from first color Two or more color spaces in space CS1, the second color space CS2 and the configuration file connection space CS3 Among, receive any one using as the first controlled plant color space CS7.Receive in process ST3 in the first object, it can also The institute of the adjusting in coordinate to receive to indicate the color (P0) of controlled plant in the first controlled plant color space CS7 State first object T1.In this mode, can from the first coordinate value of the first color space CS1, the second color space CS2 In two or more coordinate values in the third coordinate value of two coordinate values and configuration file connection space CS3, select for connecing By the coordinate value of first object T1.Therefore, the method is capable of providing a kind of convenience of operation for making that configuration file is adjusted The technology that property further increases.

In addition, though be not comprised in aforesaid way 3, but the case where prespecified first controlled plant color space It is also contained in this technology.

Mode 4

As illustrated by Fig. 8,9, receive in process ST4 in second target, it can also be from first color Two or more color spaces in space CS1, the second color space CS2 and the configuration file connection space CS3 Among, receive any one using as the second controlled plant color space CS8.Receive in process ST4 in second target, it can also The institute of the adjusting at coordinate to receive to indicate the color (P0) of controlled plant in the second controlled plant color space CS8 State the second target T2.In this mode, can from the first coordinate value of the first color space CS1, the second color space CS2 In two or more coordinate values in the third coordinate value of two coordinate values and configuration file connection space CS3, select for connecing By the coordinate value of the second target T2.Therefore, the method is capable of providing a kind of convenience of operation for making that configuration file is adjusted The technology that property further increases.

In addition, though be not comprised in aforesaid way 4, but the prespecified feelings of second controlled plant color space Condition is also contained in this technology.

Mode 5

As illustrated by Figure 12,13 etc., this configuration file adjusting method also may include adjustable range designating step ST5, in the adjustable range designating step ST5, it is adjusted right in process ST7 as adjusting in the configuration file to receive It is in the controlled plant configuration file 550 (output profiles 620 or input configuration file 610) of elephant, according to described first Target T1 and the second target T2 and the adjustable range A0 being adjusted.It is adjusted in process ST7 in the configuration file, It can the adjusting according to the first object T1 and the second target T2 and to the controlled plant configuration file 550 Range A0 is adjusted.Since the method can be to according to the first object T1 and second in controlled plant configuration file 550 Target T2 and the adjustable range A0 adjusted is specified, therefore be capable of providing a kind of operation for making that configuration file is adjusted The technology that convenience further increases.

Here, adjustable range is not limited to a part of color space, it is also possible to the entirety of color space.This is added It is bright identical as mode below.

In addition, though be not comprised in aforesaid way 5, but the fixed situation of adjustable range is also contained in this technology In.

Mode 6

As illustrated by Figure 10,11,14B, adjusted in process ST7 in the configuration file, it can also be passing through State first object T1 and range (A1) that the controlled plant configuration file 550 as object adjusted is adjusted with pass through The second target T2 and the feelings to overlap in range (A2, A3) that the controlled plant configuration file 550 is adjusted Under condition, the controlled plant configuration file 550 is adjusted in the range (A4~A7) that the overlapping has occurred, to become First regulated quantity (such as regulated quantity D1) of the degree adjusted using the expression obtained by the first object T1 and by described the Regulated quantity D calculated by the second regulated quantity (such as regulated quantity D2, D3) for the degree that the expression that two target T2 are obtained is adjusted.Due to In this approach, in the range (A1) being adjusted by first object T1 and the model being adjusted by the second target T2 Enclosing in the range (A4~A7) being overlapped in (A2, A3) keeps the first regulated quantity (D1) and the second regulated quantity (D2, D3) anti- It reflects in the adjusting of controlled plant configuration file 550, therefore it is right in the case where implementing the conversion of multiple colors to be capable of providing one kind The preferred technology that configuration file is adjusted.

Mode 7

As illustrated by Figure 10,11,14B, this configuration file adjusting method can also include that coefficient sets process ST6 receives in coefficient setting process ST6 for for finding out in the range (A4~A7) being overlapped Coefficient (such as the weight of first regulated quantity (D1) of regulated quantity D and at least one party in second regulated quantity (D2, D3) A1, a2, a3) setting.The configuration file adjust process ST7 in, can also to the controlled plant configuration file 550 into Row is adjusted, to become in the range (A4~A7) being overlapped according to described in the coefficient (a1, a2, a3) and utilization Regulated quantity D calculated by first regulated quantity (D1) and second regulated quantity (D2, D3).Since in this mode, user can To at least one party made in the first regulated quantity (D1) and the second regulated quantity (D2, D3) in the range (A4~A7) being overlapped The degree being reflected into the adjusting of controlled plant configuration file 550 is set, therefore is capable of providing one kind and is made to configuration file The technology that the convenience for the operation being adjusted further increases.

Mode 8

As Fig. 6 it is equal illustrated by like that, in configuration file adjusting process ST7, in the first object T1 and In the case that the second target T2 is not expressed by second coordinate value, can will with the first object T1 and Corresponding second coordinate value of the second target T2 is sought as target output value TargetOut, and right The controlled plant configuration file 550 is adjusted, so that from the coordinate and foundation of the color (P0) for indicating the controlled plant The first element or second element and as object adjusted controlled plant configuration file 550 and obtain Second coordinate value close to the target output value TargetOut.Due in this approach, to indicate output color Controlled plant configuration file 550 is had adjusted on the basis of second coordinate value, therefore being capable of providing one kind mentions color reproduction accuracy High technology.

Here, adjusting in process ST7 in the configuration file, can also implement to make obtained second coordinate repeatedly It is worth the calculation process close to the target output value TargetOut, to adjust to the controlled plant configuration file 550 Section.

In addition, though being not comprised in aforesaid way 8, but configuration is adjusted such that object profile is adjusted First coordinate value of the third coordinate value of file connection space or the first color space close to target value scheme also by comprising In this technique.

Mode 9

Computer is realized and mode 1 in addition, configuration file involved in a mode of this technology adjusts program PR0 The corresponding function of each process, that is, first specified function FU1 corresponding with the first designating step ST1 and the second designating step The corresponding second specified function FU2 of ST2, receive with first object the corresponding first object of process ST3 receive function FU3, Receive that corresponding second target of process ST4 receives function FU4 and to adjust process ST7 with configuration file opposite with the second target The configuration file regulatory function FU7 answered.The method, which is capable of providing one kind, to be made in the case where implementing the conversion of multiple colors to output The configuration file that the convenience for the operation that configuration file is adjusted improves adjusts program.This configuration file adjusts program PR0 Computer can be made to realize that adjustable range corresponding with adjustable range designating step ST5 is specified function FU5 and set with coefficient Determine the corresponding coefficient set-up function FU6 of process ST6.

Mode 10

Computer is realized and mode 2 in addition, configuration file involved in other modes of this technology adjusts program PR0 The corresponding function of each process, that is, first specified function FU1 corresponding with the first designating step ST1, with the second specified work The corresponding second specified function FU2 of sequence ST2, receive the corresponding first object of process ST3 with first object and receive function FU3, receive corresponding second target of process ST4 with the second target and receive function FU4 and adjust process ST7 with configuration file Corresponding configuration file regulatory function FU7.The method is capable of providing a kind of make in the case where implementing the conversion of multiple colors pair The configuration file that the convenience for the operation that output profiles are adjusted improves adjusts program.This configuration file adjusts program PR0 can also make computer realize the specified function FU5 of corresponding with adjustable range designating step ST5 adjustable range and be The corresponding coefficient set-up function FU6 of number setting process ST6.

Mode 11

In addition, configuration file regulating system (such as host apparatus 100) involved in a mode of this technology include with The corresponding unit of each process of mode 1, that is, first specifying part U1 corresponding with the first designating step ST1, specified with second The corresponding second specifying part U2 of process ST2, receive with first object the corresponding first object receiving portion U3 of process ST3, with Second target receive the corresponding second target receiving portion U4 of process ST4 and with configuration file adjust process ST7 it is corresponding Configuration file adjustment portion U7.The method, which is capable of providing one kind, to be made in the case where implementing the conversion of multiple colors to output profiles The configuration file regulating system that the convenience for the operation being adjusted improves.This configuration file regulating system also may include and adjust The corresponding adjustable range specifying part U5 of adjusting range designating step ST5 and coefficient corresponding with coefficient setting process ST6 are set Determine portion U6.

Mode 12

In addition, configuration file regulating system (such as host apparatus 100) involved in other modes of this technology includes Unit corresponding with each process of mode 2, that is, first specifying part U1 corresponding with the first designating step ST1, refer to second Determine the corresponding second specifying part U2 of process ST2, the corresponding first object receiving portion U3 that receives process ST3 with first object, With the second target receive the corresponding second target receiving portion U4 of process ST4 and with configuration file adjust process ST7 it is corresponding Configuration file adjustment portion U7.The method is capable of providing a kind of make in the case where implementing the conversion of multiple colors to output configuration text The configuration file regulating system that the convenience for the operation that part is adjusted improves.This configuration file regulating system also may include with The corresponding adjustable range specifying part U5 of adjustable range designating step ST5 and coefficient corresponding with coefficient setting process ST6 Configuration part U6.

Moreover, this technology can be suitable for the control method of configuration file regulating device, include configuration file regulating device Composite system, the control method of composite system, the control program of configuration file regulating device, the control program of composite system, The computer-readable medium etc. that program and the control program are recorded is adjusted to configuration file.Device above-mentioned can also be with It is made of the multiple portions dispersed.

(2) specific example of the structure of configuration file regulating system:

Fig. 1 schematically shows the host apparatus 100 as the structural example of configuration file regulating system.The host apparatus 100 are set to, CPU (Central Processing Unit: central processing unit) 111, ROM (Read Only Memory: read-only memory) 112,113, storage device RAM (Random Access Memory: random access memory) 114, display device 115, input unit 116, color measuring device 117, communication I/F (interface) 118 etc. be joined together so as to Enough mutual input/output informations.

Storage device 114 adjusts program PRO etc. and stores to OS (not shown) (operating system), configuration file.These Program is suitably read by RAM113, and is used in the adjusting processing of configuration file 500.Here, configuration file 500 is input The general designation of configuration file 610 and output profiles 620.It is stored at least one of RAM113 and storage device 114 There are various information, such as input configuration file 610, output profiles 620, spot color 645, adjusting history 700 etc..It is filled in storage It sets in 114, is able to use the magnetic memory apparatus etc. of nonvolatile semiconductor memory, hard disk of flash memory etc. etc..

In display device 115, it is able to use liquid crystal display panel etc..In input unit 116, it is able to use pointer and sets Hardkey standby, including keyboard, the touch panel being pasted on the surface of display panel etc..Color measuring device 117 can be to being formed Each color lump in the exemplary printed object (Print substrate) as the medium for being formed with colour chart is surveyed Color, and export measured color value.Color lump is also referred to as colour atla.Measured color value is for example set as indicating the brightness L on CIE Lab color space And the value of chromaticity coordinate a, b.Color measuring device 117 can also be arranged at the outside of host apparatus 100.Host apparatus 100 from Color measuring device 117 obtains the colour examining data comprising multiple measured color values and implements various processing.Communicate I/F118 and printer 200 I/F210 connection is communicated, and exports the information inputs such as printed data relative to printer 200.In communication I/F118,210 In standard, it is able to use USB (Universal Serial Bus, universal serial bus), near field communication standard etc..It is logical Believe I/F118,210 communication both can be wired, or it is wireless, can also for such as LAN (Local Area Network, Local area network) or internet etc. as network communication.

Configuration file shown in FIG. 1, which adjusts program PR0, makes host apparatus 100 realize that the first specified function FU1, second are specified Function FU2, first object receive function FU3, the second target receives function FU4, adjustable range specifies function FU5, coefficient setting Function FU6 and configuration file regulatory function FU7.

In addition, including computer etc. as personal computer (including panel type terminal) in host apparatus 100.It is main Machine device 100 can both have entire infrastructure element 111~118 in a shell, can also be by the side can mutually communicate Formula and divided multiple devices are constituted.In addition, can also implement this technology even if printer is located in host apparatus 100.

Printer 200 shown in FIG. 1 is set as, and sprays the C (blue-green) of (injection) as color material from record head 220 Ink, M (magenta) ink, Y (yellow) ink and K (black) ink, to form output corresponding with printed data The ink-jet printer of image IMO.Record head 220 is supplied to CMYK (blue-green, magenta, Huang from print cartridge Cc, Cm, Cy, Ck respectively Color and black) ink, and from nozzle Nc, Nm, Ny, Nk spray respectively CMYK ink drop 280.When ink drips 280 landings When on printed object ME1, ink point is formed on printed object ME1.As a result, can obtain on printed object ME1 Printed article with output image IMO.

(3) specific example of color management system:

Next, being illustrated referring to Fig. 2,3 to the example for the color management system that can apply this technology.

Fig. 2, color management system shown in 3 utilize RIP (Raster Image Processor: grating image processor) And being converted to printed original data D0 indicates process colour cmyk_pThe output number of (blue-green, magenta, yellow and black) According to so that ink-jet printer 200 be made to form printed article.Printed original data D0 is indicated, for utilizing the mesh combined as color The CMYK ink (color material) of the exemplary target print machine 300 of marking device and reproduce color (the aim colour C as target_t) Process colour CMYK_in.In printed original data D0, the face color designation for also capableing of designated color library claims.The face color name Claim corresponding with spot color 645.In color libraries such as being able to use Pantone (registered trademark) color libraries.

It may be intaglio press, mult-functional printing press although target print machine 300 is set as offset press Deng.Aim colour C_tSuch as it is indicated by the coordinate value (Lab value) of CIE Lab color space.In fig. 2 it is shown that target print Machine 300 will indicate aim colour C_tColour chart be printed in printed object to color measuring device comparison colour chart each color lump into Row colour examining and obtain measured color value Lab_tThe case where.Process colour CMYK_inWith the CMYK ink used in target print machine 300 Usage amount it is corresponding, and indicate depend on target print machine 300 CMYK color space coordinate.

There is RIP400 shown in Fig. 2 first input configuration file 611, second to input configuration file 612, output configuration text Part 620 and color libraries 640.Inputting configuration file 610 is the first input configuration file 611 and the second input configuration file 612 General designation.First input configuration file 611 is the color spy for describing the ink of the CMYK used in target print machine 300 The file of property.Second input configuration file 612 is the text for describing the color characteristics for depending on the RGB (not shown) for indicating device Part.Output profiles 620 are the file for describing the color characteristics of the ink used in ink-jet printer 200.Defeated Enter the data format that ICC Profile is for example able to use in configuration file 610 and output profiles 620.Color libraries 640 To describe the file for claiming corresponding spot color 645 with face color designation.Spot color 645 is indicated by Lab value.

The process colour CMYK of printed original data D0_inConfiguration file 611 is inputted according to first and is converted into Lab color The color Lab in space_s.The technique that expression becomes the intensity of the three primary colors R (red) of addition colour mixture, G (green) and B (blue) Color RGB_inThe color Lab of Lab color space is converted into according to the second input configuration file 612_s.Color designation is according to face Color library 640 and the color Lab for being converted into Lab color space_s.These colors Lab_sIt is converted according to output profiles 620 For process colour cmyk_p.In the case where ink of the printer 200 using total four colors of CMYK, process colour cmyk_pIt is defeated Out to printer 200, to be reproduced on printed article.In fig. 2 it is shown that printer 200 will indicate process colour cmyk_p's Colour chart is printed in printed object and obtains measured color value to which each color lump of color measuring device comparison colour chart carries out colour examining Lab_pThe case where.LC (pale bluish green), LM (shallow magenta), DY (buff), LK (light/dark balance) etc. are also used in printer 200 In the case where ink, if RIP400 or printer 200 are by process colour cmyk_pIt is divided into heavy colour and light color, then printer 200 It can be by process colour cmyk_pIt is reproduced on printed article.Certainly, process colour itself is also not limited to total four colors of CMYK.

In addition, RIP400 is in addition to process colour CMYK_inIn addition, also have to the only three primary colors indicated as subtractive colour mixture The process colour of the usage amount of the color material of CMY (is set as CMY_in) etc. and Lab color space coordinate value converted it is defeated Enter configuration file.Therefore, RIP400 also can be by process colour CMY_inOr process colour RGB_inDeng via Lab color space and Be converted to process colour cmyk_p.Moreover, RIP400 can also input the color Lab of Lab color space_sTo be converted to technique face Color cmyk_p。

RIP400 shown in Fig. 3 have input configuration file 610, printed object A first input configuration file 621, And the second output profiles 622 of the other kinds of printed object B other than printed object A.Input configuration file 620 For the general designation of the first input configuration file 621 and the second input configuration file 622.First input configuration file 610 is to describe The file of the color characteristics of the ink of the CMYK used in target print machine 300.First output profiles 621 are to describe Reproducing target color C is used in the case where ink-jet printer 200 is using printed article A_tInk color characteristics file.? In the case where premised on the use of printed object A, the color Lab of Lab color space_sAccording to the first output profiles 621 And it is converted into process colour CMYK_pA.Second output profiles 622 are to describe to use in ink-jet printer 200 to be printed Reproducing target color C is used in the case where object B_tInk color characteristics file.On the use of printed object B premised on In the case of, the color Lab of Lab color space_sProcess colour CMYK is converted into according to the second output profiles 622_pB.When So, the data format of ICC Profile is for example able to use in output profiles 621,622.

In the above manner, so as to reproduce the color close to target print machine 300 using ink-jet printer 200 Color.But in fact, sometimes because the error of configuration file, color detection error, variation of printer etc. can not be again Existing expected color.In this case, by being modified to configuration file 610,620, to improve the color of object Conversion accuracy.In the case where being modified to output profiles 620, it is contemplated that by PCS (configuration file connection space) In Lab_sValue is set as target value, and the result (Lab of colour examining will have been carried out to the color gone out as printed by printer 200_pA、Lab_pB) It is set as current value, so that the color difference to the two calculates, thus output profiles 620 are modified to reduce the color Difference.In addition, in the case where being modified to input configuration file 610, it is contemplated that matched using input configuration file 610 and output Colour chart is converted and printed to the data set file 620 and compare colour chart, and to the colour examining result of each color lump (Lab_pA、Lab_pB) and destination color value (Lab_t) between color difference calculated, thus to input configuration file 610 be modified To reduce the color difference.Here, colour examining result Lab_pAIndicate the measured color value for the color lump being formed on printed object A, colour examining result Lab_pBIndicate the measured color value for the color lump being formed on printed object B.

But expected color can not be obtained because of following reason sometimes, or spend manpower and time.

Reason 1: due to need to after printing result carry out colour examining, it is therefore desirable to measuring machine, thus can not with visually under Color combination it is corresponding.

Reason 2: in the case where being modified to input configuration file 610, the calculated result of color difference is fed back into input Configuration file 610.But in view of there are in the case where the reason of error in output profiles 620, it is also desirable to other Input configuration file be modified.It is (in this case, right and calculated result is fed back to output profiles 620 Output profiles 620 are modified, without being modified to other output profiles.)

In addition, as shown in Fig. 2, relative to a printer output profiles 620, in addition to for target print machine Other than 300 the first input configuration file 611, also combination has the second input configuration file for display device sometimes 612 or the spot color 645 of direct color is specified by Lab value.In this case, match if only making the first of target print machine to input The combination for setting the output profiles 620 of file 611 and printer optimizes, then in the second input configuration of display device The sufficient of color reproduction accuracy can not be expected in the combination of file 612 or spot color 645 and printer output profiles 620 It improves.

In addition, as shown in figure 3, combination has and printed object A, B phase sometimes relative to an input configuration file 610 Corresponding multiple output profiles 620.In this case, if only making to input configuration file 610 and the first output configuration text The combination of part 621 optimizes, then can not expect face in the combination of input configuration file 610 and the second output profiles 622 The sufficient raising of color reproduction precision.

In this specific example, function FU1~FU7 that program PR0 is realized is adjusted by configuration file, so as to mention Height realizes higher face in the convenience for the operation for implementing that configuration file is adjusted in the case where the conversion of multiple colors Color reproduction precision and hierarchy.

(4) specific example of configuration file:

Fig. 4 schematically illustrates input configuration file 610, output profiles 620 and equipment connection profile 630 relationship.

As shown in figure 4, input configuration file 610 is to define to match with target print machine 300 using ink CMYK value (the C in CMYK color space (example of the first color space CS1)_i、M_i、Y_i、K_i) (PCS (is configured with Lab color space File connection space) CS3 example) Lab value (L_i、a_i、b_i) between corresponding relationship data.A2B table in this case Mesh point GD1 in CMYK color space to C axis direction, M axis direction, Y direction and K axis direction usually to become substantially etc. The mode at interval is arranged.In addition, variable i herein be to the mesh point GD1 being set on CMYK color space (CS1) into The variable of row identification.CMYK value is the example of the first coordinate value.Lab value is the example of third coordinate value.In input configuration file In 610, CMYK color space (CS1) is the example for inputting color space CS4, and Lab color space (CS3) is output color space The example of CS5.

Output profiles 620 are the Lab value (L for defining Lab color space (CS3)_j、a_j、b_j) and and ink-jet printer Cmyk value (the c of the 200 cmyk color space (example of the second color space CS2) to be matched using ink_j、m_j、y_j、k_j) Between corresponding relationship data.The mesh point GD2 of B2A table in this case usually in Lab color space to the axis side L Become to, a axis direction and b axis direction and is substantially arranged at equally spaced mode.In addition, variable j herein is to being set In the variable that the mesh point GD2 on Lab color space (CS3) is identified.It shows as " cmyk color space " and is in order to will be with The color space of printer 200 to be matched using ink and the color space to match with target print machine 300 are distinguished. Cmyk value is the example of the second coordinate value.In output profiles 620, Lab color space (CS3) is input color space The example of CS4, cmyk color space (CS2) are the example for exporting color space CS5.

Equipment connection profile 630 is the CMYK value (C for defining CMYK color space (CS1)_i、M_i、Y_i、K_i) with Cmyk value (the c of cmyk color space (CS2)_i、m_i、y_i、k_i) between corresponding relationship data.Variable i herein is to being set Due to the variable that the mesh point GD1 on CMYK color space (CS1) is identified.Equipment connection profile 630 passes through will be defeated Enter configuration file 610 and output profiles 620 in conjunction with and obtain.In input configuration file 610, CMYK color space It (CS1) is the example of input color space CS4, cmyk color space (CS2) is the example for exporting color space CS5.

Fig. 5 schematically illustrates the structure of configuration file 500.Configuration file 500 shown in fig. 5 is ICC Profile, And including configuration file header 510 and label list 520.It include label (tag) 521, the label 521 in configuration file 500 It is to be carried out between PCS and equipment subordinate color space (device dependent color space) to color information Information needed for conversion.The private label 523 for making the personalization of configuration file 500 can also be included in label 521.

The A2Bx label (x as shown in Figure 5 is 0,1 or 2) that equipment (300,200) is used is wrapped as element data 530 Turn containing the color for being converted to Lab color space from equipment subordinate color space (CMYK color space, cmyk color space) Change table.The B2Ax label that equipment (300,200) is used includes for being to set from Lab color space conversion as element data 530 The color-conversion table of standby subordinate color space (CMYK color space, cmyk color space).

A2B0 label and B2A0 label as shown in Figure 5 is, for implementing (Perceptual) the color conversion of perception Information.Since half tone reproduction is paid attention in the color conversion of perception, it is mainly used in turning for the wider photograph image of colour gamut In changing.A2B1 label and B2A1 label as shown in Figure 5 is, for implementing (the Media-Relative of opposite colour examining Colorimetric the information of the color conversion of color conversion or absolutely colour examining (Absolute Colorimetric)). Since measured color value is loyal in the color conversion of colour examining, it is primarily used to seek the face of the consistent digital proof of accurate color The conversion of color correction output.A2B2 label and B2A2 label shown in fig. 5 are for implementing saturation degree (Saturation) Color conversion information.Since the color of saturation degree converts the more vividness of attention color compared with the accuracy of tone, because This is primarily used to the display etc. of the chart in business graphics.

(5) specific example of processing is adjusted by the configuration file that configuration file regulating system is implemented:

The configuration file that Fig. 6 shows the implementation of host apparatus 100 as shown in Figure 1 adjusts the example of processing.Fig. 7 is shown The example for configuration file and the parameter setting processing implemented in the step S102 of Fig. 6.Certainly, these processing are able to carry out more Change the changes appropriate such as sequence.Fig. 8,9 show represented UI (user interface) picture 800 in the step S202 of Fig. 7 Example.Host apparatus 100 executes multiple processing according to multitask side by side.Here, the step S212 of Fig. 7 and first is specified Process ST1, the second designating step ST2, the first specified function FU1, the second specified function FU2, the first specifying part U1 and second Specifying part U2 is corresponding.The step S213 to S214 of Fig. 7 with first object receives process ST3, the second target receives process ST4, First object receives function FU3, the second target receives function FU4, first object receiving portion U3 and the second target receiving portion U4 It is corresponding.Fig. 7 specifies function FU5 and adjustable range specified step S215 and adjustable range designating step ST5, adjustable range Portion U5 is corresponding.The step S216 of Fig. 7 is opposite with coefficient setting process ST6, coefficient set-up function FU6 and coefficient configuration part U6 It answers.The step S104 to S120 and configuration file of Fig. 6 adjusts process ST7, configuration file regulatory function FU7 and configuration file tune Section portion U7 is corresponding.Hereinafter, omitting the record of " step ".

When coming into effect configuration file adjusting processing shown in fig. 6, host apparatus 100 implements configuration text shown in Fig. 7 Part and parameter setting processing (S102).When having come into effect the configuration file and parameter setting is handled, host apparatus 100 makes to show Showing device 115 shows Fig. 8 or UI picture shown in Fig. 9 800 (S202 of Fig. 7).UI picture 800 shown in Fig. 8 has adjusting pair As configuration file selection region 805, the specified region 810 of combination, target region of acceptance 840, " specified from image " button 841, chase after Add button 842, delete button 843, adjustable range to specify column 850, be intended to that column 880, adjusting implementation button 870, history is specified to carry Enter button 881 and Historic preservation button 882.Combine specified region 810 have input configuration file selectionbar 811,812, specially Color selectionbar 813, adjusts data selectionbar 816, controlled plant color-space choosing region at output profiles selectionbar 815 830 and in detail setting button 860.The specified region 810 of combination shown in Fig. 8 is become combination and referred to by UI picture 800 shown in Fig. 9 Determine region 820.Combining specified region 820 has output profiles selectionbar 821,822,823, input configuration file selectionbar 825, data selectionbar 826, controlled plant color-space choosing region 830 are adjusted and sets button 860 in detail.In addition, Fig. 9 Shown in combine specified region 820 there are multiple columns (822,823) for carrying out selection to the second input configuration file 612.

Receive when by input unit 116 to " output profiles " for adjusting object profile selection region 805 Selection operation when, UI picture 800 is switched to state shown in Fig. 9 by host apparatus 100.It is connect when by input unit 116 When by the selection operation of " input configuration file " for adjusting object profile selection region 805, host apparatus 100 draws UI Face 800 is switched to state shown in Fig. 8.

Host apparatus 100 receives the operation (S210) to above-mentioned column and button by input unit 116, works as receiving When to adjusting the operation for implementing button 870, terminate configuration file and parameter setting processing.The processing of S210 includes processing below S211~S216.

(S211) receive the either side of input configuration file 610 and output profiles 620 to match as controlled plant Set the processing of file 550.

(S212) receive the specified processing of the element combined with controlled plant configuration file 550.

(S213) it is connect among CMYK color space (CS1), cmyk color space (CS2) and Lab color space (CS3) By any one using the processing as the first controlled plant color space CS7 or the second controlled plant color space CS8.

(S214) receive the first mesh of the regulated value at the coordinate of expression point of adjustment P0 (example of the color of controlled plant) Mark the processing of the input of T1 and the second target T2.

(S215) receive to be configured in the first color space CS1 or configuration file connection space CS3 according to controlled plant Target T0 in file 550 and the specified processing of adjustable range being adjusted.

(S216) receive for finding out in the range being adjusted by first object T1 and by the second target T2 The processing of the setting of the coefficient of the regulated quantity in the range of overlapping has occurred in the range being adjusted.

(S217) receive from multiple rendering intents of the corresponding relationship for providing controlled plant configuration file 550 any One using the processing as specified intention.

Firstly, docking is illustrated by the processing of the S211 for the selection for adjusting object profile 550 referring to Fig. 8,9.

In the case that combination shown in Fig. 8 specifies region 810 shown, host apparatus 100 is by utilizing input unit 116 and receive operation to output profiles selectionbar 815, thus from the output configuration being stored in storage device 114 Receive the selection operation of common output profiles among file 620.Combination shown in Fig. 9 specifies region 820 shown In the case where, host apparatus 100 by using input unit 116 receive to input configuration file selectionbar 825 operation, from And receive the selection behaviour of common output profiles among the input configuration file 610 being stored in storage device 114 Make.

Next, referring to Fig. 8 to 11, to the specified S212 for receiving the element combined with controlled plant configuration file 550 Processing be illustrated.

In the case that combination shown in Fig. 8 specifies region 810 shown, host apparatus 100 is by utilizing input unit 116 and receive operation to selectionbar 811,812,813, thus from the input configuration file being stored in storage device 114 610 and spot color 645 among receive the selection operation of element.

It, can be from the input configuration file being stored in storage device 114 in input configuration file selectionbar 811 The first input configuration file 611 used in color conversion is selected in 610.

It, can be from the output profiles being stored in storage device 114 in output profiles selectionbar 812 The second input configuration file 612 used in color conversion is selected in 610.The second input configuration file 612 is not being used In the case where in color conversion, only the second input configuration file selectionbar 812 need to be set as blank.

In spot color selectionbar 813, it can select to match with output from the spot color 645 being stored in storage device 114 Set the combined spot color of file 620.In the case where not combining spot color 645 with output profiles 620, spot color need to only be selected Column 813 is set as blank.

When receiving the operation to detailed setting button 860, host apparatus 100 is to detailed setting screen shown in Fig. 10 910 are shown.

Detailed setting screen 910 shown in Fig. 10 has output profiles selectionbar 911, input configuration file selectionbar 912, spot color selectionbar 913, additional button 914A, additional button 914B, the specified column 915 of distribution, confirmation frame 916, OK button 917 Deng.

It, also can be from the input configuration text being stored in storage device 114 in each input configuration file selectionbar 912 Input configuration file used in color conversion is selected in part 610.By the input configuration file selection of " input configuration file 1 " The selected input configuration file in column 912 becomes the first input configuration file 611.By the input configuration of " input configuration file 2 " The selected input configuration file of file selectionbar 912 becomes the second input configuration file 612.Not by the second input configuration text In the case that part 612 is used in color conversion, the input configuration file selectionbar 912 by " input configuration file 2 " is only needed to be set as Blank.When receiving the operation to additional button 914A, host apparatus 100 increase input configuration file selectionbar 912 and Receive the addition of the second input configuration file 612 used in color conversion.It, can be from being deposited in spot color selectionbar 913 It is stored in the spot color that selection is combined with output profiles 620 in the spot color 645 in storage device 114.Not by spot color 645 with it is defeated In the case that configuration file 620 combines out, only spot color selectionbar 813 need to be set as blank.When receiving is to additional button When the operation of 914B, host apparatus 100 increases spot color selectionbar 913 and receives the spot color 645 combined with output profiles 620 Addition.

When receiving the operation to OK button 917, host apparatus 100 is back to UI picture 800 shown in Fig. 8.

In the above manner, to make the first input configure as the first element combined with output profiles 620 File 611 is designated in the first input configuration file selectionbar 811, and as second combined with output profiles 620 Element and make the second input configuration file 612 and spot color 645 in selectionbar 812,813 be designated.

In the case that combination shown in Fig. 9 specifies region 820 shown, host apparatus 100 is by utilizing input unit 116 and receive operation to output profiles selectionbar 821,822,823, thus from being stored in storage device 114 Receive the selection operation of element in output profiles 620.

It, can be from the input configuration file being stored in storage device 114 in input configuration file selectionbar 821 First input configuration file 621 of the selection for color conversion in 620.

It, can be from the output configuration being stored in storage device 114 in each output profiles selectionbar 822,823 The second input configuration file 622 used in color conversion is selected in file 620.One second input configuration text is being used only In the case where part 622, only the second input configuration file selectionbar 823 need to be set as blank.

When receiving the operation to detailed setting button 860, host apparatus 100 is to detailed setting screen shown in Figure 11 920 are shown.

Detailed setting screen 920 shown in Figure 11 has input configuration file selectionbar 921, output profiles selectionbar 922, additional button 924, the specified column 925 of distribution, confirmation frame 926, OK button 927 etc..

It, also can be from the input configuration text being stored in storage device 114 in each input configuration file selectionbar 922 Input configuration file used in color conversion is selected in part 620.It is selected by the output profiles of " output profiles 1 " The selected output profiles in column 922 become the first output profiles 621.By " output profiles 2 " and " output is matched The selected output profiles of output profiles selectionbar 922 for setting file 3 " become the second output profiles 622.? In the case where using only second output profiles 622, only need to select the output profiles of " output profiles 3 " Column 922 is set as blank.When receiving the operation to additional button 924, host apparatus 100 increases output profiles selection Column 922 and receive color conversion used in the second output profiles 622 addition.

When receiving the operation to OK button 927, host apparatus 100 is back to UI picture 800 shown in Fig. 9.

In the above manner, to make the first output configure as the first element combined with input configuration file 610 File 621 is designated in the first output profiles selectionbar 821, and as second combined with input configuration file 610 Element and make the second output profiles 622 in the second output profiles selectionbar 822,823 be designated.

Next, referring to Fig. 8,9, it is empty to the first controlled plant color space CS7 of receiving or the second controlled plant color Between the processing of specified S213 of CS8 be illustrated.In addition, as shown in Figure 18 A~18C, by controlled plant color space CS7, CS8 is referred to as controlled plant color space CS6.In the specified region 810,820 of the combination shown in Fig. 8,9, as adjusting pair The triangle mark that solid line is marked on the position selected as color space CS6, as controlled plant color space CS6 The triangle mark of dotted line is marked on non-selected position.

Combination shown in Fig. 8 is specified in region 810, when host apparatus 100 will input configuration file selectionbar first The the first input configuration file 611 selected in 811 and the output configuration text selected in output profiles selectionbar 815 In the case that part 620 is combined, from CMYK color space (CS1), cmyk color space (CS2) and Lab color space (CS3) select any one to receive as the first controlled plant color space CS7 among.In fig. 8 it is shown that for the The combination of one input configuration file " Input_1.icc " and output profiles " Output_0.icc ", CMYK color space is made The appointed situation for the first controlled plant color space CS7.

It inputs configuration file 612 by selected in the second input configuration file selectionbar 812 second and is exporting In the case that the output profiles 620 that are selected in configuration file selectionbar 815 combine, host apparatus 100 is from CMYK color Receive any one among space (CS1), cmyk color space (CS2) and Lab color space (CS3) to adjust as second Object color space CS8.In fig. 8 it is shown that for the second input configuration file " Input_2.icc " and output profiles The combination of " Output_0.icc ", cmyk color space appointed situation as the second controlled plant color space CS8

The spot color selected in spot color selectionbar 813 645 is being selected in output profiles selectionbar 815 Output profiles 620 combine in the case where, receive any in cmyk color space (CS2) and Lab color space (CS3) One side is using as the second controlled plant color space CS8.In fig. 8 it is shown that for spot color " NamedColor_1.icc " with The combination of output profiles " Output_0.icc ", Lab color space are referred to as the second controlled plant color space CS8 Fixed situation.

Combination shown in Fig. 9 is specified in region 820, and host apparatus 100 is will be in input configuration file selectionbar 825 The input configuration file 610 selected and the first output configuration text selected in the first output profiles selectionbar 821 Part 621 combine in the case where, from CMYK color space (CS1), cmyk color space (CS2) and Lab color space (CS3) it In receive any one using as the first controlled plant color space CS7.In fig. 9 it is shown that for input configuration file The combination of " Input_0.icc " and the first output profiles " Output_1.icc ", CMYK color space are adjusted as first Object color space CS7 and appointed situation.

The input configuration file 610 selected in input configuration file selectionbar 825 is being configured in the second output In the case where the second output profiles 622 combination selected in file selectionbar 822,823, from CMYK color space (CS1), receive any one among cmyk color space (CS2) and Lab color space (CS3) using as the second controlled plant Color space CS8.In fig. 9 it is shown that in the case where the second output profiles are " Output_1.icc ", cmyk color Space is designated as the second controlled plant color space CS8, and is " Output_2.icc " in the second output profiles In the case where, Lab color space appointed situation as the second controlled plant color space CS8.

In the above manner, to the first color space CS1, the second color space CS2 and configuration file connection space Any one in CS3 is designated as the first controlled plant color space CS7.

In addition, referring to Fig. 8,9,12,13 etc., to the first object T1 of the regulated value in the coordinate for receiving to indicate point of adjustment P0 And second the processing of S214 of input of target T2 be illustrated.Herein, Figure 12 is schematically illustrated to export configuration text Part 620 as controlled plant in the case where target region of acceptance 840.Figure 13 is schematically illustrated to input configuration file 610 as controlled plant in the case where target region of acceptance 840.In addition, target T1, T2 is referred to as target T0.

Adjusting data selectionbar 816 in output profiles selectionbar 815 shown in Fig. 8 and shown in Fig. 9 defeated Enter in the adjusting data selectionbar 826 in configuration file selectionbar 825, can select any in " absolute value " and " relative value " One." absolute value " receives the option of the target T0 adjusted for the coordinate value as color space." relative value " be as away from Difference from the current coordinate value of color space and the option for receiving the target T0 adjusted.

The implementation of host apparatus 100 specifies the selection in region 810,820 according to combinations of the above and changes target region of acceptance The processing of the cuit in domain 840.When having selected " absolute value " in adjusting data selectionbar 816,826, such as Figure 12,13 institutes Show, the input field for adjusting the coordinate value of target T0 is displayed on target together with the display field of the current coordinate value of color space In region of acceptance 840.For example, in fig. 12 it is shown that the first input configuration file is " Input_1.icc " and the first adjusting pair In the case where being CMYK color space (CS1) as color space CS7, the coordinate value (T_ of the first object T1 in CMYK color space C, T_M, T_Y, T_K) input field be displayed on the situation in target region of acceptance 840.In fig. 12 it is shown that defeated second Enter in the case that configuration file is " Input_2.icc ", the coordinate value of the second target T2 of cmyk color space (CS2) (T_c, T_m, T_y, T_k) input field be displayed on the situation in target region of acceptance 840.In fig. 12 it is shown that being in spot color In the case where " NamedColor_1.icc ", the coordinate value (T_L, T_a, T_b) of the second target T2 of Lab color space (CS3) Input field be displayed on the situation in target region of acceptance 840.In fig. 13 it is shown that being in the first output profiles In the case where " Output_1.icc ", the coordinate value (T_C, T_M, T_Y, T_K) of the first object T1 in CMYK color space it is defeated Lairage is displayed on the situation in target region of acceptance 840.In fig. 13 it is shown that the second output profiles are " Output_ In the case where 2.icc ", the input field of the coordinate value (T_c, T_m, T_y, T_k) of the second target T2 in CMYK color space is shown Show the situation in target region of acceptance 840.

When having selected " relative value " in adjusting data selectionbar 816,826, as shown in Figure 8,9, as apart from color The input field of the coordinate value (being Δ L, Δ a, Δ B in Fig. 8,9) of the adjusting target T0 of the difference of the current coordinate value in space It is displayed in target region of acceptance 840.Fig. 8,9 show as controlled plant color space CS6 and have selected Lab color empty Between in the case where example.

The point of adjustment P0 that Figure 14 A schematically illustrates for setting adjusting target T0 is set at CMYK color space (CS1) situation in.Here, since CMYK color space is four-dimensional color space, shown in Figure 14 A by C axis, M axis and Y-axis are formed by three-dimensional imaginary space.

For example, host apparatus 100 receive Fig. 8, the operation of " specified from image " button 841 of UI picture 800 shown in 9 When, the picture for schematically showing CMYK color space (CS1) is shown in display device 115, and obtain and filled with by input The corresponding CMYK value of operation for setting 116 implementations, to be updated to the information of target region of acceptance 840.It is new when specifying Point of adjustment P0 when, host apparatus 100 assigns corresponding ID (identification information), and makes acquired CMYK value and according to this It is corresponding with ID that coordinate value of color space CS5 etc. is exported calculated by CMYK value, and is shown in target region of acceptance 840. When being operated to additional button 842, the additional ID of host apparatus 100, and increase and add in target region of acceptance 840 The corresponding input field of ID.When operating to delete button 843, host apparatus 100 receives to delete the specified of ID, and will Input field corresponding with specified ID is deleted.

In addition, host apparatus 100 is when receiving the operation of history loading button 881, reading is stored in storage device 114 In adjusting history 700 and be appended in target region of acceptance 840.When the operation of Historic preservation button 882 is received, host Device 100 is stored in storage device 114 using the information of target region of acceptance 840 as history 700 is adjusted.

The adjusting target T0 received by target region of acceptance 840 is according to the choosing on controlled plant color-space choosing column 830 It selects content and adjusts the selection content of data selectionbar 816,826, and proceed as follows change.

(selecting content 1) has selected CMYK color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " absolute value ".In this case, the input for adjusting target T0 becomes CMYK value and (is set as T_C, T_ M,T_Y,T_K).The CMYK value is for example showed by 0~100%.

(selecting content 2) has selected CMYK color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " relative value ".In this case, the input for adjusting target T0 becomes the target value (T_ of CMYK value C, T_M, T_Y, T_K) difference (being set as Δ C, Δ M, Δ Y, Δ K) relative to current value (being set as C_C, C_M, C_Y, C_K).

(selecting content 3) has selected RGB color as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " absolute value ".In this case, the input for adjusting target T0 becomes rgb value and (is set as T_R, T_ G,T_B).The rgb value is for example showed by 0~100%.

(selecting content 4) has selected RGB color as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " relative value ".In this case, the input for adjusting target T0 becomes the target value (T_ of rgb value R, T_G, T_B) difference (being set as Δ R, Δ G, Δ B) relative to current value (being set as C_R, C_G, C_B).

(selecting content 5) has selected Lab color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " absolute value ".In this case, the input for adjusting target T0 becomes Lab value and (is set as T_L, T_ a、T_b)。

(selecting content 6) has selected Lab color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " relative value ".In this case, the input for adjusting target T0 becomes the target value (T_ of Lab value L, T_a, T_b) relative to the difference of current value (being set as C_L, C_a, C_b) (it is set as Δ L, Δ a, Δ b).

(selecting content 7) has selected cmyk color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " absolute value ".In this case, the input for adjusting target T0 becomes cmyk value and (is set as T_c, T_ m,T_y,T_k).The cmyk value is for example showed by 0~100%.

(selecting content 8) has selected cmyk color space as controlled plant color space CS6, and is adjusting target T0 Input in the case where selecting " relative value ".In this case, the input for adjusting target T0 becomes the target value (T_ of cmyk value C, T_m, T_y, T_k) relative to the difference of current value (being set as C_c, C_m, C_y, C_k) (it is set as Δ c, Δ m, Δ y, Δ k).

As shown in figure 12, for the input field of the first object T1 about the first input configuration file 611, and receive expression The input of the first object T1 of regulated value in the coordinate of point of adjustment P0.For second about the second input configuration file 612 The input field of target T2, and receiving indicates the input of the second target T2 of the adjusting in the coordinate of point of adjustment P0.For about special The input field of second target T2 of color 645, and receiving indicates the input of the second target T2 of the adjusting in the coordinate of point of adjustment P0.

As shown in figure 13, for the input field of the first object T1 about the first output profiles 621, and receive expression The input of the first object T1 of regulated value in the coordinate of point of adjustment P0.For second about the second output profiles 622 The input field of target T2, and receiving indicates the input of the second target T2 of the adjusting in the coordinate of point of adjustment P0.

In addition, being illustrated referring to Fig. 8,9,12,13 etc. to the processing of S215.

Whether host apparatus 100 is specified in adjustable range receives to be adjusted according to target T0 is adjusted in column 850 Adjustable range A0 is set as the specified of color space entirety.The adjustable range shown in Fig. 8,9 specifies multiple technical routine on column 850 In include " input space whole region " and " radius ".In the case where specifying " input space whole region ", model is adjusted It encloses A0 and is set to color space entirety.In the case where specifying " radius ", as shown in Figure 12,13, host apparatus 100 receives Point of adjustment P0 is set as to the input of the radius of basic point in the input field of " Radius " of target region of acceptance 840.The radius example Such as showed by the relative value 0~100% of the Euclidean distance in the first color space CS1.In Figure 14 A, it is schematically shown The example of adjustable range A0 in radius (Radius) appointed situation.

For example, in the case that the input color space CS4 of the input configuration file 610 selected is CMYK color space Radius can be showed by the relative value of the Euclidean distance in CMYK color space.What is selected inputs the defeated of configuration file 610 Entering color space CS4 can be by the relative value of the Euclidean distance in RGB color for the radius in the case where RGB color To show.Select radius in the case where spot color 645 can be by as the second element combined with output profiles 620 The relative value of Euclidean distance in Lab color space shows.

In the above manner, in the first color space CS1 or configuration file connection space CS3, according to adjusting pair The adjustable range A0 being adjusted as the first object T1 and the second target T2 in configuration file 550 is designated.

In addition, 0,11,14B referring to Fig.1, docking by for finding out regulated quantity D coefficient (be in fig. 14b weight a1, A2, a3) the processing of S216 of setting be illustrated, wherein the regulated quantity D is to be adjusted by first object T1 The range of section ((is in fig. 14b in fig. 14b tune with the range being adjusted by the second target T2 for adjustable range A1) Adjusting range A2, A3) in regulated quantity in the range (in fig. 14b be repeat range A4~A7) that is overlapped.

It is distributed in specified column 915 shown in Fig. 10, it can be for the respective of the element combined with output profiles 620 And the specified weight in indicating the regulated quantity by the degree of the obtained adjusting of adjusting target T0.In the example depicted in fig. 10, show Go out for the first input configuration file " Input_1.icc " and specified weight a1=50.0%, has been configured for the second input File " Input_2.icc " and specify weight a2=20.0%, specify power for spot color " NamedColor_1.icc " The case where weight a3=30.0%.When the operation of the input validation label in confirming frame 916 is carried out, specified column 915 is distributed Weight is equably distributed.For example, in the case where input configuration file 610 and spot color 645 amount to and specify three elements, respectively The weight for distributing specified column 915 becomes 33.3%

It, can be for the respective of the element combined with input configuration file 610 in the specified column 925 of the distribution shown in Figure 11 And the specified weight in indicating the regulated quantity by the degree of the obtained adjusting of adjusting target T0.In the example depicted in fig. 11, show Go out for the first output profiles " Output_1.icc " and specified weight a1=50.0%, has been configured for the second output File " Output_2.icc " and specify weight a2=20.0%, for the second output profiles " Output_3.icc " The case where specifying weight a3=30.0%.When the operation of the input validation label in confirming frame 916 is carried out, distribution is specified The weight on column 925 is equably distributed.

As shown in Figure 14B, the regulated quantity D repeated in range A4~A7 can for example be calculated by following formula.

(in the case where range A4)

D=(a2 × D2+a3 × D3)/(a2+a3)

(in the case where range A5)

D=(a1 × D1+a3 × D3)/(a1+a3)

(in the case where range A6)

D=(a1 × D1+a2 × D2)/(a1+a2)

(in the case where range A7)

D=(a1 × D1+a2 × D2+a3 × D3)/(a1+a2+a3)

In the above manner, hence for indicating by the first regulated quantity of the degree of the obtained adjusting of first object T1 (D1) and indicate by the obtained adjusting of the second target T2 degree the second regulated quantity (D2, D3) coefficient (a1, a2, a3) quilt Setting.

In addition, being illustrated referring to Fig. 8,9 to the processing for the S217 for receiving the specified selection being intended to.

Host apparatus 100 receives the corresponding relationship for providing controlled plant configuration file 550 in being intended to specified column 880 Rendering intent it is specified.Fig. 8, the multiple technical routine for being intended to specified column 880 shown in 9 are " Perceptual " (perception ), " Relative Colorimetric " (opposite colour examining) and " Saturation " (saturation degree) these three.Certainly, exist It both may include " Absolute Colorimetric " (absolute colour examining) in technical routine, " Perceptual " can also be made A part in " Relative Colorimetric " and " Saturation " is not present in technical routine.In Fig. 8,9 It shows as specified intention and specifies the example of " Perceptual ".

In the above manner, to anticipate from multiple reproductions of the corresponding relationship for providing controlled plant configuration file 550 Receive any one in figure using as specified intention.

Host apparatus 100 terminates the place of the S210 of Fig. 7 when receiving Fig. 8, adjusting the operation for implementing button 870 shown in 9 It manages, and the processing that the S104 for implementing Fig. 6 is later.Here, when specifying " Perceptual " (perception in being intended to specified column 880 ) in the case where, host apparatus 100 in the processing after S104 using according in configuration file 500 as shown in Figure 5 The information of A2B0 label and B2A0 label." Relative Colorimetric " is specified when specifying in column 880 in intention In the case where (opposite colour examining), host apparatus 100 in the processing after S104 using according in configuration file 500 by scheming The information of A2B1 label and B2A1 label shown in 5.It (is saturated when specifying " Saturation " in being intended to specified column 880 Degree) in the case where, host apparatus 100 in the processing after S104 using according in configuration file 500 as shown in Figure 5 The information of A2B2 label and B2A2 label.

Hereinafter, the processing later to S104 is illustrated also referring to Figure 15 to 22.Herein, Figure 15, which is instantiated, matches output Set the corresponding data group that file 620 generates input value Input_P Yu regulated quantity Δ cmyk as controlled plant configuration file 550 Processing.Figure 16, which is instantiated, as controlled plant configuration file 550 generates input value Input_P for input configuration file 610 With the processing of the corresponding data group of regulated quantity Δ Lab.

Firstly, host apparatus 100 is directed to each point of adjustment P0 for being input in target region of acceptance 840, according to combining It specifies appointed combination in region 810,820 and finds out current output valve CurrentOut (S104 of Fig. 6).This is because With output color cmyk corresponding with the output color of image IMO being formed on printed object ME1_pOn the basis of and implement The reason of adjusting.In the case where information corresponding with specified intention is present in configuration file, according to corresponding to specified intention Information and implement color conversion.

Here, as shown in Figure 17 C, being set as by f_icc(the first parameter, the second parameter, third parameter) and indicate according to configuration The conversion of file (such as ICC Profile).But the first parameter indicates used configuration file.In the first parameter, InputProfile indicates that input configuration file, OutputProfile indicate output profiles.In the second parameter, A2B table Show the conversion from device color to equipment individual color, B2A indicates the conversion from equipment individual color to device color.Third ginseng Several Input tables shows the input value (CMYK, RGB, Lab etc.) of point of adjustment P0.

As shown in Figure 17 A, 17B, color conversion (a-1), (a- are designated in the combination of configuration file 610,620 2) in the case where, the input value Input of each point of adjustment P0 becomes CMYK value (being set as Cp, Mp, Yp, Kp) or rgb value (is set as Rp,Gp,Bp).In this case, current output valve CurrentOut becomes CMYK value (Cp, Mp, Yp, Kp).

In the case where above-mentioned (a-1), (a-2), no matter controlled plant configuration file 550, which is input configuration file 610, is gone back It is output profiles 620, current output valve CurrentOut can be calculated (referring to figure by following formula 17C)。

CurrentOut=f_icc(OutputProfile, B2A, f_icc(InputProfile, A2B, Input))

Although not illustrated, color is designated in the combination of spot color 645 and output profiles 620 and is turned In the case where changing, the input value Input of point of adjustment P0 becomes Lab value (being set as Lp, ap, bp).In this case, current output Value CurrentOut also becomes cmyk value (cp, mp, yp, kp).Current output valve CurrentOut can be counted by following formula It calculates.

CurrentOut=f_icc(OutputProfile, B2A, Input)

After calculating current output valve CurrentOut, host apparatus 100 is directed to and is input to target region of acceptance Each point of adjustment P0 in domain 840 finds out target output value according to combination appointed in combining specified region 810,820 TargetOut(S106).This is because with corresponding with the output color of image IMO being formed on printed object ME1 Export color cmyk_pOn the basis of and implement adjust reason.It is present in configuration file in information corresponding with specified intention In the case of, color conversion is implemented according to information corresponding with specified intention.

For example, as shown in Figure 18 A, being designated for color conversion and the first face in the combination of configuration file 610,620 In the case that colour space CS1 is designated as controlled plant color space CS6 (a-1-1), the regulated quantity in the first color space CS1 AdjustData is added into CMYK value (Cp, Mp, Yp, Kp) or rgb value (Rp, Gp, Bp).Regulated quantity AdjustData It is indicated by relative value (Δ Cp, Δ Mp, Δ Yp, Δ Kp) or relative value (Δ Rp, Δ Gp, Δ Bp).CMYK value after adjusting It is indicated by (Cp+ Δ Cp, Mp+ Δ Mp, Yp+ Δ Yp, Kp+ Δ Kp), the rgb value after adjusting is by (Rp+ Δ Rp, Gp+ Δ Gp, Bp+ Δ Bp) it indicates.

In the case where above-mentioned (a-1-1), target output value TargetOut can be calculated by following formula (referring to figure 19)。

TargetOut=f_icc(OutputProfile, B2A, f_icc(InputProfile, A2B, Input+ AdjustData))

Above-mentioned formula is also identical in the case where controlled plant configuration file 550 is output profiles 620.

For example, as shown in figure 18b, being designated for color conversion and the second face in the combination of configuration file 610,620 In the case that colour space CS2 is designated as controlled plant color space CS6 (a-1-2), adjusted in cmyk color space (CS2) Section amount AdjustData is added into cmyk value (cp, mp, yp, kp).Regulated quantity AdjustData by relative value (Δ cp, Δ mp, Δ yp, Δ kp) it indicates.CMYK value after adjusting is by (Cp+ Δ Cp, Mp+ Δ Mp, Yp+ Δ Yp, Kp+ Δ Kp) come table Show, in cmyk color space, the cmyk value after adjusting is by (cp+ Δ cp, mp+ Δ mp, yp+ Δ yp, kp+ Δ kp) come table Show.

In the case where above-mentioned (a-1-2), target output value TargetOut can be calculated by following formula (referring to figure 19)。

TargetOut=f_icc(OutputProfile, B2A, f_icc(InputProfile, A2B, Input))+ AdjustData

Above-mentioned formula is also identical in the case where controlled plant configuration file 550 is output profiles 620.

As shown in figure 18 c, color conversion and controlled plant face are designated in the combination of configuration file 610,620 In the case that colour space CS6 is designated as third color space CS3 (a-1-3), the regulated quantity in Lab color space (CS3) AdjustData is added into Lab value (Lp, ap, bp).Regulated quantity AdjustData is by relative value (Δ Lp, Δ ap, Δ Bp it) indicates.In Lab color space, the Lab value after adjusting is indicated by (Lp+ Δ Lp, ap+ Δ ap, bp+ Δ bp).

In the case where above-mentioned (a-1-3), target output value TargetOut can be calculated by following formula (referring to figure 19)。

TargetOut=f_icc(OutputProfile, B2A, f_icc(InputProfile, A2B, Input)+ AdjustData)

Above-mentioned formula is also identical in the case where controlled plant configuration file 550 is output profiles 620.

Although not illustrated, in spot color 645 and output profiles 620 (controlled plant configuration file 550) Combination is designated for color conversion and the second color space CS2 the case where being designated as controlled plant color space CS6 Under, regulated quantity AdjustData is added into cmyk value (cp, mp, yp, kp) in cmyk color space (CS2).The adjusting Amount AdjustData is indicated by relative value (Δ cp, Δ mp, Δ yp, Δ kp).Cmyk in cmyk color space, after adjusting Value is indicated by (cp+ Δ cp, mp+ Δ mp, yp+ Δ yp, kp+ Δ kp).In this case, mesh can be calculated by following formula Mark output valve TargetOut.

TargetOut=f_icc(OutputProfile, B2A, Input)+AdjustData

Color is designated in the combination of spot color 645 and output profiles 620 (controlled plant configuration file 550) In the case that conversion and third color space CS3 are designated as controlled plant color space CS6, at Lab color space (CS3) Middle regulated quantity AdjustData is added into Lab value (Lp, ap, bp).Regulated quantity AdjustData by relative value (Δ Lp, Δ ap, Δ bp) it indicates.In Lab color space, the Lab value after adjusting is by (Lp+ Δ Lp, ap+ Δ ap, bp+ Δ bp) come table Show.In this case, target output value TargetOut can be calculated by following formula.

TargetOut=f_icc(OutputProfile, B2A, Input+AdjustData)

In addition, calculating for target output value TargetOut can be in the feelings that adjusting target T0 is indicated by output coordinate value Be omitted under condition, and be only limitted to adjust target T0 not by output coordinate value to indicate in the case where implement.

After calculating target output value TargetOut, host apparatus 100 obtains controlled plant for each point of adjustment P0 Input value Input_P and adjusting target value TargetOut_P (S108) in configuration file 550.This is because to adjusting pair The reason being adjusted as the corresponding relationship between the input value and output valve in configuration file 550.Corresponding to specified intention Information be present in configuration file in the case where, color conversion is implemented according to information corresponding with specified intention.

As shown in FIG. 20 A, in the case where (a-1) as shown in Figure 17 A, that is, the combination of configuration file 610,620 is selected It selects for color conversion and in the case that input configuration file 610 is designated as controlled plant configuration file 550, configuration file 610,620 combined input value Input is used as the input value Input_P in controlled plant configuration file 550.It adjusts The adjusting target value TargetOut_P (Lab value) for saving object profile 550 can be according to the target output value as cmyk value TargetOut and be calculated (referring to Figure 20 C).

Input_P=Input

TargetOut_P=f_icc(OutputProfile, A2B, TargetOut)

The adjusting target value of controlled plant configuration file 550 is found out according to target output value TargetOut (cmyk value) TargetOut_P (Lab value) is due to output color cmyk corresponding with the output color of image IMO_pOn the basis of and it is real Apply the reason of adjusting.

In addition, the current output valve CurrentOut_P (Lab value) in controlled plant configuration file 550 is by following formula come table Show.

CurrentOut_P=f_icc(InputProfile, A2B, Input)

When the output color space CS5 of controlled plant configuration file 550 is indicated as the relative value for adjusting target T0 When regulated quantity Δ Lab, become TargetOut_P-CurrentOut_P.

As shown in fig. 20b, in the case where (a-2) as seen in this fig. 17b, that is, in the combination quilt of configuration file 610,620 It is selected as configuration for color conversion and in the case that output profiles 620 are designated as controlled plant configuration file 550 The combined target output value TargetOut of file 610,620 is as the adjusting target value in controlled plant configuration file 550 TargetOut_P and used.The input value Input_P (Lab value) of controlled plant configuration file 550 can be according to as cmyk The input value Input of value or rgb value and be calculated (referring to Figure 20 C).

Input_P=f_icc(InputProfile, A2B, Input)

TargetOut_P=TargetOut

In addition, the current output valve CurrentOut_P (cmyk value) in controlled plant configuration file 550 is configuration text The current output valve CurrentOut of the combination of part 610,620.

CurrentOut_P=CurrentOut

When indicated by the output color space CS5 of controlled plant configuration file 550 as adjust target T0 relative value Regulated quantity Δ cmyk when, become TargetOut_P-CurrentOut_P.

Although not illustrated, in spot color 645 and output profiles 620 (controlled plant configuration file 550) In the case that combination is designated for color conversion, the input value Input as Lab value is as controlled plant configuration file Input value Input_P in 550 and used, and target output value TargetOut is as in controlled plant configuration file 550 Adjusting target value TargetOut_P and used.

Input_P=Input

TargetOut_P=TargetOut

In addition, the current output valve CurrentOut_P (cmyk value) in controlled plant configuration file 550 is spot color 645 With the current output valve CurrentOut of the combination of output profiles 620.

CurrentOut_P=CurrentOut

When indicated by the output color space CS5 of controlled plant configuration file 550 as adjust target T0 relative value Regulated quantity Δ cmyk when, become TargetOut_P-CurrentOut_P.

In the case where output profiles 620 are adjusted, as shown in figure 15, it is set as basis and output profiles 620 combined elements and pair for generating input value Input_P Yu regulated quantity TargetOut_P-CurrentOut_P (Δ cmyk) Answer data group.In Figure 21 A, instantiate for each element for combine with output profiles 620 and make input value (L, a, b) and Regulated quantity (the corresponding data group SET1 of Δ c, Δ m, Δ y, Δ k).

When coming into effect output profiles shown in figure 15 and adjusting data group and generate processing, host apparatus 100 with One of combined element of output profiles 620 be object, according to the element whether be CMYK input input configuration file 610 The case where and make handle branch (S302).In the case where the input configuration file 610 inputted for CMYK, 100 benefit of host apparatus With input configuration file 610 by the input value Input (CMYK of point of adjustment P0_in) be converted to input value Input_P (Lab value) (S304).In addition, generating obtained input value Input_P (Lab value) and regulated quantity TargetOut_P-CurrentOut_P The corresponding data group SET1 (S306) of (Δ cmyk), and shift the process to S316.

In the case where above-mentioned element is not the input configuration file 610 of CMYK input, host apparatus 100 is wanted according to above-mentioned Element whether be RGB input input configuration file 610 the case where and make handle branch (S308).Match in the input inputted for RGB In the case where setting file 610, host apparatus 100 is using input configuration file 610 and by the input value Input of point of adjustment P0 (RGB_in) be converted to input value Input_P (Lab value) (S310).In addition, generating obtained input value Input_P (Lab value) With the corresponding data group SET1 (S312) of regulated quantity TargetOut_P-CurrentOut_P (Δ cmyk), and shift the process to S316。

In the case where above-mentioned element is not the input configuration file 610 of RGB input, above-mentioned element is specified special for Lab Color 645.In this case, host apparatus 100 generates the input value Input_P and regulated quantity as appointed Lab value The corresponding data group SET1 (S314) of TargetOut_P-CurrentOut_P (Δ cmyk), and shift the process to S316.

The processing of S302~S314 is carried out (S316) for all elements combined with output profiles 620.

In the case where input configuration file 610 is adjusted, as shown in figure 16, it is set as basis and input configuration file 610 combined elements and to generate input value Input_P corresponding with regulated quantity TargetOut_P-CurrentOut_P (Δ Lab) Data group.In Figure 21 B, instantiate for each element for combine of input configuration file 610 and make input value (C, M, Y, K) and Regulated quantity (the corresponding data group SET2 of Δ L, Δ a, Δ b).

When coming into effect shown in Figure 16 input configuration file and adjusting data group and generate processing, host apparatus 100 with Inputting one of combined output profiles 620 of configuration file 610 is object, using output profiles 620 by point of adjustment The target output value TargetOut (cmyk value) of P0, which is converted to, adjusts target value TargetOut_P (Lab value) (S402).In addition, Current output valve CurrentOut_P (Lab value) is subtracted from obtained adjusting target value TargetOut_P (Lab value) and Regulated quantity TargetOut_P-CurrentOut_P (Δ Lab) is found out, to generate the input value Input as point of adjustment P0 (CMYK_in) input value Input_P (CMYK value) and regulated quantity TargetOut_P-CurrentOut_P (Δ Lab) corresponding number According to a group SET2 (S404).

The processing of S402~S404 is for all output profiles 620 combined with input configuration file 610 and by reality Apply (S406).

Obtaining input value Input_P and regulated quantity TargetOut_P- in controlled plant configuration file 550 After CurrentOut_P, host apparatus 100 is in S110~S112 according to the first object T1 of regulated value and the second target T2 and to adjust object profile 550 adjustable range A0 be adjusted.

Firstly, referring to Figure 22 A, 22B, illustrate in adjustable range A0 to adjusting what object profile 550 was adjusted Concept.Here, horizontal axis indicates the input value of some reference axis along input color space CS4 in Figure 22 A, Figure 22 B, indulge Axis indicates the output valve of some reference axis along output color space CS5.For example, being CMYK face in input color space CS4 In the case where the colour space, horizontal axis becomes C axis, M axis, Y-axis or K axis.In the feelings that output color space CS5 is Lab color space Under condition, the longitudinal axis becomes L axis, a axis or b axis.White circle on horizontal axis illustrates mesh point GD0.

Figure 22 A schematically illustrates the regulated quantity AD of each mesh point GD0 in the case that output valve is adjusted.With Point of adjustment P0 specified by family is corresponding with input value Input_P.When user indicates regulated quantity as target T0 is adjusted When AdjustData, current output valve corresponding with input value Input_P is added by regulated quantity AdjustData Adjusting target value TargetOut_P in CurrentOut_P is set.Certainly, if controlled plant color space CS6 is Cmyk color space, then current output valve CurrentOut_P and adjusting target value TargetOut_P are indicated by cmyk value, Regulated quantity AdjustData is indicated by the relative value (Δ cp, Δ mp, Δ yp, Δ kp) of cmyk value.If controlled plant color Space CS6 is Lab color space, then current output valve CurrentOut_P and adjusting target value TargetOut_P are by Lab value It indicates, regulated quantity AdjustData indicates by the relative value (Δ Lp, Δ ap, Δ bp) of Lab value.

By specifying the input of column 850 and target region of acceptance 840 to direction adjustable range shown in Fig. 8,9, thus Adjustable range A0 is set in regulated quantity AdjustData.The case where specifying column 850 for adjustable range and specifying " radius " Under, substantially in the following way, that is, output valve is set as maximum relative to the regulated quantity of input value Input_P, and is being adjusted Regulated quantity is set as 0 by the boundary of range A0.But since actual adjusting is the net for controlled plant configuration file 550 Lattice point GD0 and implement, therefore adjust will affect sometimes to bigger range compared with the adjustable range A0 being set.

Figure 22 B schematically illustrates the regulated quantity AD of each mesh point GD0 in the case that input value is adjusted.With Point of adjustment P0 specified by family is corresponding with input value Input_P.When user indicates regulated quantity as target T0 is adjusted When AdjustData, the input value Input_P+ that is added into regulated quantity AdjustData in input value Input_P The corresponding output valve of AdjustData becomes the output valve expected in the point of adjustment P0 that user specifies.Certainly, if adjusted Section object color space CS6 is CMYK color space, then input value Input_P is indicated by CMYK value, regulated quantity AdjustData is indicated by the relative value (Δ Cp, Δ Mp, Δ Yp, Δ Kp) of CMYK value.If controlled plant color space CS6 For Lab color space, then input value Input_P is indicated by Lab value, regulated quantity AdjustData by Lab value relative value (Δ Lp, Δ ap, Δ bp) it indicates.

Above-mentioned correction is sat for whole reference axis of input color space CS4 and the whole of output color space CS5 Scale value and be carried out.

Next, referring to Figure 23 A, Figure 23 B, to setting showing for regulated quantity AD in each mesh point GD0 of adjustable range A0 Example is illustrated.Here, horizontal axis indicates input value in Figure 23 A, Figure 23 B, the longitudinal axis indicates the regulated quantity AD of output valve.In addition, Triangle mark on horizontal axis indicates the mesh point (except nearest mesh point GDnearest) in adjustable range A0, horizontal axis On quadrangle label indicate the mesh point that is not corrected of output valve outside adjustable range A0.

Firstly, as shown in fig. 23 a, host apparatus 100 each point of adjustment P0 is determined output valve relative to as near The regulated quantity AD1 (S110 of Fig. 6) of the nearest mesh point GDnearest of nearly mesh point GDnearest.In Figure 23 A, show It determines the case where two o'clock is designated in point of adjustment P0 (input value Input_P) in some reference axis for inputting color space CS4 Under output valve regulated quantity AD1 example.In the example of Figure 23 A, by the regulated quantity relative to input value Input_P AdjustData is set as regulated quantity AD1 of the output valve relative to nearest mesh point GDnearest with regard to this.Certainly, this technology is not It is defined in the case where output valve is set as regulated quantity AdjustData relative to the regulated quantity AD1 of nearest mesh point GDnearest.

It is as shown in fig. 23b, main after determining for the regulated quantity AD1 of the output valve near mesh point GDnearest Machine device 100 determines mesh point (the triangle mark for being placed in around nearest mesh point GDnearest in adjustable range A0 The mesh point of note) output valve regulated quantity AD2 (S112 of Fig. 6).For example, by will be for the mesh point outside adjustable range A0 The regulated quantity of output valve be set as 0, and by the regulated quantity AD1 of the output valve for each nearest mesh point GDnearest It is set as AdjustData, and carries out the interpolation arithmetic according to three-dimensional or four-dimensional cubic spline function, so as to determine pair In the regulated quantity AD2 of the output valve of the mesh point of surrounding.Here, only being needed when inputting color space CS4 is CMYK color space The interpolation arithmetic is carried out according to four-dimensional cubic spline function, when input color space CS4 is Lab color space When, only the interpolation arithmetic need to be carried out according to three-dimensional cubic spline function.By implementing this interpolation arithmetic, thus The regulated quantity AD2 for making the output valve of the mesh point for surrounding, in the tune of the output valve for each nearest mesh point GDnearest Smoothly it is connected between section amount AD1 and the regulated quantity " 0 " of the output valve for the mesh point outside adjustable range A0.

Certainly, the case where this technology is not limited in interpolation arithmetic using spline function.

Since in this specific example, combination has multiple elements in controlled plant configuration file 550, therefore in combination pair As set in the case where for the first element regulated quantity AD1, AD2 mesh point GD0, in the feelings that compound object is the second element The mesh point GD0 that regulated quantity AD1, AD2 is set under condition becomes identical sometimes.It in this case, only need to be according to for as schemed 10, the specified column 915,925 of distribution shown in 11 and appointed weight and distribute the output valve of regulated quantity to(for) mesh point GD0 AD1, AD2.The distribution can for example be set as the regulated quantity D as shown in Figure 14 B.

For example, some mesh point GD0 is directed to, combine the first input configuration file 611 with output profiles 620 In the case of, it is set as regulated quantity D1=1.00 and weight a1=50.0%, is configured by the second input configuration file 612 and output In the case that file 620 combines, it is set as regulated quantity D2=2.00 and weight a2=20.0%, spot color 645 is being matched with output In the case where setting the combination of file 620, it is set as regulated quantity D3=3.00 and weight a1=50.0%.Regulated quantity D in this case As (50.0 × 1.00+20.0 × 2.00+30.0 × 3.00)/(50.0+20.0+30.0)=1.80.

In addition, being directed to some mesh point GD0, it will input what configuration file 610 was combined with the first output profiles 621 In the case of, it is set as regulated quantity D1=1.40 and weight a1=50.0%, is configured by the second input configuration file 612 and output In the case that file 620 combines, it is set as regulated quantity D2=2.10 and weight a2=20.0%.Regulated quantity D in this case at For (50.0 × 1.40+20.0 × 2.10)/(50.0+20.0)=1.60.

After determining the regulated quantity AD of output valve of each mesh point for adjustable range A0, host apparatus 100 will determine Fixed regulated quantity AD reflects into controlled plant configuration file 550 (S114 of Fig. 6).That is, for each grid of adjustable range A0 Point need to only configure controlled plant using the value for being added to regulated quantity AD in current output valve as updated output valve File 550 is written.For example, if the output color space CS5 of controlled plant configuration file 550 is cmyk color space, The value of regulated quantity (being set as Δ cq, Δ mq, Δ yq, Δ kq) is then added in current output valve (being set as cq, mq, yq, kq) (cq+ Δ cq, mq+ Δ mq, yq+ Δ yq, kq+ Δ kq) becomes updated output valve.If controlled plant configuration file 550 Output color space CS5 is Lab color space, then is added to regulated quantity in current output valve (being set as Lq, aq, bq) The value (Lq+ Δ Lq, aq+ Δ aq, bq+ Δ bq) of (being set as Δ Lq, Δ aq, Δ bq) becomes updated output valve.Herein Variable q is the variable identified to the mesh point in adjustable range A0.

In the above manner, the corresponding relationship for adjusting object profile 550 can be adjusted, to make current Output valve CurrentOut is in the second color space CS2 close to target output value TargetOut.It is adapted when with specified meaning Information when being present in controlled plant configuration file 550, can be in the corresponding relationship being adapted with specified meaning to adjusting Object profile 550 is adjusted.

After updating controlled plant configuration file 550, host apparatus 100 is for being input in target region of acceptance 840 Each point of adjustment P0, by using updated controlled plant configuration file 550 or include updated controlled plant configuration The combination of configuration file including file 550 is so as to find out current output valve CurrentOut (S116).It is updated current Output valve CurrentOut can utilize the identical formula of the processing of S104 illustrated with 7C referring to Fig.1 and calculate.When with When the adaptable information of specified meaning is present in configuration file, implements color according to the information being adapted with specified meaning and turn It changes.

In addition, host apparatus 100 is found out updated for being input to each point of adjustment P0 of target region of acceptance 840 Difference D (S118) between current output valve CurrentOut and target output value TargetOut.The difference can for example be set For point corresponding with output valve CurrentOut and and mesh in the output color space CS5 of controlled plant configuration file 550 Mark the Euclidean distance between the corresponding point of output valve TargetOut.

On this basis, whether host apparatus 100 is true to the termination condition of the reprocessing of S108~S120 is sentenced Disconnected (S120) repeats the processing of S108~S120 when termination condition is invalid, terminates configuration file when termination condition is set up Adjusting processing.For example, can be set to, when being scheduled threshold value or less for all point of adjustment P0 difference D termination condition at It is vertical.In addition it is also possible to be set as, when reaching defined number, termination condition is set up.

In the above manner, can be adjusted to object profile 550 is adjusted, to make from opposite with point of adjustment P0 The input coordinate value answered and according to current controlled plant configuration file 550 or including controlled plant configuration file 550 Configuration file combination and the current output valve CurrentOut that obtains close to target output value TargetOut.With this Mode, due to that can adjust the coordinate value for indicating output color CMYKP to object profile 550 is adjusted as benchmark Section, therefore this specific example configuration file can be adjusted used in the conversion to the coordinate value of color space, with reality Existing good color reproduction accuracy.At this point, since controlled plant configuration file 550 and controlled plant color space can be specified CS6, therefore this specific example can neatly be coped with being adapted using environment for user.

In addition, this specific example can be directed to an output profiles 620, in addition to the first input of target print machine It is also specified direct to the second input configuration file 612 for being directed to RGB data and by Lab value other than configuration file 611 Spot color 645 of color etc. is combined.Since the group of the first input configuration file 611 and output profiles 620 can not only be made It closes and optimizes, and the combination of other elements (612,645) and output profiles 620 can be made to optimize, there is no need to In order to which output profiles 620 are adjusted and the object of switching combining.It therefore, can be in the feelings for implementing multiple color conversions The convenience for the operation that output profiles are adjusted is improved under condition.

In addition, this specific example can be directed to an input configuration file 610, in addition to the first output of printed object A Other than configuration file 621, also second output profiles 622 of printed object B etc. are combined.Due to that can not only make The combination for inputting configuration file 610 and the first output profiles 621 optimizes, and can make to input configuration file 610 and The combinations of other elements (622) optimizes, and there is no need in order to be adjusted input configuration file 610 and switching combining Object.It therefore, can be implementing to improve operation that output profiles are adjusted in the case where the conversion of multiple colors just Benefit.

(6) change example:

The present invention considers various changes example.

For example, output equipment is not limited to ink-jet printer, it can also be the electronic photo mode of laser printer etc. Printer, three-dimensional printer, display device etc..

The type of color material for forming figure is not limited to C, M, Y, K, can also include other than C, M, Y, K with Lc, Dy (buff), Or (orange), Gr (green) and the K that Lm, Y are comparably high concentration are comparably the Lk (light/dark balance) of low concentration, use In the color material etc. for the non-coloring for improving image quality.

Certainly, the second color space is not limited to cmyk color space, can also be CMY color space, RGB color Deng.

Target device is not limited to target print machine, can also be display device etc..

Certainly, the first color space is not limited to CMYK color space, can also be CMY color space, RGB color Deng.

The selecting object of controlled plant color space is not limited to the first color space, the second color space and configuration text Part connection space these three, either the first color space and the second color space both, be also possible to the first color sky Between with configuration file connection space both, can also be the second color space and configuration file connection space both.

In addition, not combining spot color with output profiles and always by multiple input configuration files and output profiles The case where combination, always input configuration file the case where combining with spot color with output profiles will be also contained in this technology In, it can also obtain the basic functions and effects of " mode 1 " of this technology.

In addition, even if not will input configuration file be set as controlled plant configuration file in the case where, as long as being wanted multiple Element is combined with output profiles, then can also obtain the basic functions and effects of " mode 1 " of this technology.

In addition, even if in the case where output profiles not being set as controlled plant configuration file, as long as being wanted multiple Element is combined with input configuration file, then can also obtain the basic functions and effects of " mode 2 " of this technology.

(7) it summarizes:

As described above, according to the present invention, it is capable of providing by various modes a kind of in the multiple colors conversions of implementation In the case where improve the convenience for the operation that configuration file is adjusted technology etc..Certainly, even if only by independent right The technology that constitutive requirements involved in it is required that are constituted can also obtain the basic effect, effect.

Further, it is also possible to implement following structure etc., that is, mutually replace each structure disclosed in the example Perhaps change combined structure or well-known technique and each structure disclosed in the example are mutually replaced or changed Become combined structure etc..The present invention also includes these structures etc..

Symbol description

100 ... host apparatus (example of configuration file regulating system)；114 ... storage devices；115 ... display devices； 116 ... input units；200 ... printers；300 ... target print machines；400…RIP；500 ... configuration files；550 ... adjustings pair As configuration file；610 ... input configuration files；611 ... first input configuration files；612 ... second input configuration files； 620 ... output profiles；621 ... first output profiles；622 ... second output profiles；The connection of 630 ... equipment is matched Set file；640 ... color libraries；645 ... spot colors；700 ... adjust history；800 ... UI pictures；805 ... controlled plant configuration files Selection region；810,820 ... combine specified region；811,812 ... input configuration file selectionbars；813 ... spot color selectionbars； 815 ... output profiles selectionbars；816 ... adjust data selectionbar；821,822,823 ... output profiles selectionbar； 825 ... input configuration file selectionbars；826 ... adjust data selectionbar；830 ... controlled plant color-space choosing regions； 840 ... target regions of acceptance；841 ... " specified from image " buttons；842 ... additional buttons；843 ... delete buttons；850 ... are adjusted Range specifies column；860 ... set button in detail；870 ... adjust implementation button；910 ... detailed setting screens；911 ... outputs are matched Set file selectionbar；912 ... input configuration file selectionbars；913 ... spot color selectionbars；914A ... adds button；914B ... is chased after Add button；915 ... distribute specified column；916 ... confirmation frames；920 ... detailed setting screens；921 ... input configuration file selectionbars； 922 ... output profiles selectionbars；924 ... additional buttons；925 ... distribute specified column；926 ... confirmation frames；A0 ... adjusts model It encloses；The first color space of CS1 ...；The second color space of CS2 ...；CS3 ... configuration file connection space；It is empty that CS4 ... inputs color Between；CS5 ... exports color space；CS6 ... controlled plant color space；CS7 ... the first controlled plant color space；CS8 ... Two controlled plant color spaces；GD0, GD1, GD2 ... mesh point；The nearest mesh point of GDnearest ...；P0 ... point of adjustment；PR0… Configuration file adjusts program；The first designating step of ST1 ...；The second designating step of ST2 ...；ST3 ... first object receives process； The second target of ST4 ... receives process；ST5 ... adjustable range designating step；ST6 ... coefficient sets process；ST7 ... configuration file tune Save process；T0 ... target；T1 ... first object；The second target of T2 ....

Claims (15)

1. a kind of configuration file adjusting method, for the first coordinate value from the first color space to the second color space the The method that configuration file used in the conversion of two coordinate values is adjusted, the configuration file adjusting method include:

First designating step, as pair with the third coordinate value and second coordinate value that define configuration file connection space The first element for the output profiles combination that should be related to, and receive to define first coordinate value and the third coordinate value Corresponding relationship first input configuration file；

Second designating step as the second element combined with the output profiles, and receives to define first seat The second of scale value and the corresponding relationship of the third coordinate value input configuration file and by the third coordinate value represented by it is special At least one party in color；

First object receives process, turns according to the first element and the output profiles from first coordinate value In the case where being changed to second coordinate value, receive to indicate the first object of the regulated value at the coordinate of the color of controlled plant；

Second target receives process, according to second element and the output profiles and from first coordinate value and In the case that at least one party in the third coordinate value is converted to second coordinate value, receive the color for indicating controlled plant Coordinate at adjusting the second target；

Configuration file adjusts process, configures text to the output according to the first object and second target received Part is adjusted.

2. a kind of configuration file adjusting method, for for from the first coordinate value of the first color space to the second color space The second coordinate value conversion the method that is adjusted of configuration file, the configuration file adjusting method includes:

First designating step, as pair with the third coordinate value for defining first coordinate value and configuration file connection space The first element for the input configuration file combination that should be related to, and receive to define the third coordinate value and second coordinate value Corresponding relationship the first output profiles；

Second designating step as the second element combined with the input configuration file, and receives to define the third seat Second output profiles of the corresponding relationship of scale value and second coordinate value；

First object receives process, is converted to according to the input configuration file and the first element from the first coordinate value In the case where second coordinate value, receive to indicate the first object of the regulated value at the coordinate of the color of controlled plant；

Second target receives process, turns according to the input configuration file and second element from first coordinate value In the case where being changed to second coordinate value, receive to indicate the second target of the adjusting at the coordinate of the color of controlled plant；

Configuration file adjusts process, configures text to the input according to the first object and second target received Part is adjusted.

3. configuration file adjusting method as described in claim 1, wherein

Receive in process in the first object, from first color space, second color space and the configuration Among two or more color spaces in file connection space, receive any one using empty as the first controlled plant color Between, and receiving indicates described first of the adjusting at the coordinate of the color of controlled plant in the first controlled plant color space Target.

4. configuration file adjusting method as claimed in claim 2, wherein

Receive in process in the first object, from first color space, second color space and the configuration Among two or more color spaces in file connection space, receive any one using empty as the first controlled plant color Between, and receiving indicates described first of the adjusting at the coordinate of the color of controlled plant in the first controlled plant color space Target.

5. configuration file adjusting method as described in claim 1, wherein

Receive in process in second target, from first color space, second color space and the configuration Among two or more color spaces in file connection space, receive any one using empty as the second controlled plant color Between, and receiving indicates described second of the adjusting at the coordinate of the color of controlled plant in the second controlled plant color space Target.

6. configuration file adjusting method as claimed in claim 2, wherein

Receive in process in second target, from first color space, second color space and the configuration Among two or more color spaces in file connection space, receive any one using empty as the second controlled plant color Between, and receiving indicates described second of the adjusting at the coordinate of the color of controlled plant in the second controlled plant color space Target.

7. configuration file adjusting method as described in claim 1, wherein

Further include adjustable range designating step, in the adjustable range designating step, receives as in the configuration file tune Save it is in process among the controlled plant configuration file of object adjusted, according to the first object and second target And the adjustable range being adjusted,

It is adjusted in process in the configuration file, according to the first object and second target to the controlled plant The adjustable range of configuration file is adjusted.

8. configuration file adjusting method as claimed in claim 2, wherein

Further include adjustable range designating step, in the adjustable range designating step, receives as in the configuration file tune Save it is in process among the controlled plant configuration file of object adjusted, according to the first object and second target And the adjustable range being adjusted,

It is adjusted in process in the configuration file, according to the first object and second target to the controlled plant The adjustable range of configuration file is adjusted.

9. configuration file adjusting method as described in claim 1, wherein

The configuration file adjust process in, by the first object to the controlled plant as object adjusted The range and the model that the controlled plant configuration file is adjusted by second target that configuration file is adjusted In the case where overlapping in enclosing, controlled plant configuration file is adjusted in the range of overlapping has occurred in this, with It is obtained as the first regulated quantity of the degree adjusted using the expression obtained by the first object and by second target Indicate regulated quantity calculated by the second regulated quantity of the degree adjusted.

10. configuration file adjusting method as claimed in claim 2, wherein

The configuration file adjust process in, by the first object to the controlled plant as object adjusted The range and the model that the controlled plant configuration file is adjusted by second target that configuration file is adjusted Enclose in the case where overlapping, this have occurred overlapping in the range of the controlled plant configuration file is adjusted, at To utilize the first regulated quantity of the degree of the expression adjusting obtained by the first object and the table obtained by second target Show regulated quantity calculated by the second regulated quantity of the degree of adjusting.

11. configuration file adjusting method as claimed in claim 9, wherein

Further include coefficient setting process, in coefficient setting process, receives for described producing overlapping for finding out The setting of the coefficient of the first regulated quantity and at least one party in second regulated quantity of regulated quantity in range,

It is adjusted in process in the configuration file, the controlled plant configuration file is adjusted, to become in the generation According to the coefficient and regulated quantity calculated by first regulated quantity and second regulated quantity is utilized in the range of overlapping.

12. configuration file adjusting method as claimed in claim 10, wherein

Further include coefficient setting process, in coefficient setting process, receives for for finding out described be overlapped The setting of the coefficient of the first regulated quantity and at least one party in second regulated quantity of regulated quantity in range,

It is adjusted in process in the configuration file, the controlled plant configuration file is adjusted, to become in the generation According to the coefficient and regulated quantity calculated by first regulated quantity and second regulated quantity is utilized in the range of overlapping.

13. configuration file adjusting method as described in claim 1, wherein

It is adjusted in process in the configuration file, does not pass through second coordinate in the first object and second target It, will the second coordinate value conduct corresponding with the first object and second target in the case where being worth and being expressed Target output value and sought, and the controlled plant configuration file is adjusted, so as to be adjusted pair from indicating described The coordinate of the color of elephant and according to the first element or second element and as the controlled plant of object adjusted Configuration file and second coordinate value that obtains are close to the target output value.

14. configuration file adjusting method as claimed in claim 2, wherein

It is adjusted in process in the configuration file, does not pass through second coordinate in the first object and second target It, will the second coordinate value conduct corresponding with the first object and second target in the case where being worth and being expressed Target output value and sought, and the controlled plant configuration file is adjusted, so as to be adjusted pair from indicating described The coordinate of the color of elephant and according to the first element or second element and as the controlled plant of object adjusted Configuration file and second coordinate value that obtains are close to the target output value.

15. a kind of configuration file regulating system, to the first coordinate value from the first color space to the of the second color space Configuration file used in the conversion of two coordinate values is adjusted, and the configuration file regulating system includes:

First specifying part, as corresponding with the third coordinate value and second coordinate value that define configuration file connection space The first element of the output profiles combination of relationship, receives to define first coordinate value and the third coordinate value First input configuration file of corresponding relationship；

Second specifying part, as the second element combined with the output profiles, receiving defines first coordinate Second input configuration file of value and the corresponding relationship of the third coordinate value and by the spot color represented by the third coordinate value In at least one party；

First object receiving portion is converted to according to the first element and the input configuration file from the first coordinate value In the case where second coordinate value, receive to indicate the first object of the regulated value at the coordinate of the color of controlled plant；

Second target receiving portion, according to second element and the output profiles and from first coordinate value and In the case that at least one party in the third coordinate value is converted to second coordinate value, receive the color for indicating controlled plant Coordinate at adjusting the second target；

Configuration file adjustment portion configures the output according to the first object and second target received File is adjusted.